******************************************* simulating BouncingBallPlant with driver __driver002 ******************************************* =========================================== SIMULATION STEP 0 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 der(time) <- 1.000000e+000 taking care of the following conditions: __asrt026 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 10 position : 10 velocity : 0 time : 0 __ell010 : False __ell011 : False __ell012 : False __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : False __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 10 velocity : -0.4905 time : 0.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.975475 velocity : -0.981 time : 0.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.926425 velocity : -1.4715 time : 0.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.85285 velocity : -1.962 time : 0.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.75475 velocity : -2.4525 time : 0.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.632125 velocity : -2.943 time : 0.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.484975 velocity : -3.4335 time : 0.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.3133 velocity : -3.924 time : 0.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 9.1171 velocity : -4.4145 time : 0.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 8.896375 velocity : -4.905 time : 0.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 8.651125 velocity : -5.3955 time : 0.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 8.38135 velocity : -5.886 time : 0.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 8.08705 velocity : -6.3765 time : 0.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 7.768225 velocity : -6.867 time : 0.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 7.424875 velocity : -7.3575 time : 0.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 7.057 velocity : -7.848 time : 0.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 6.6646 velocity : -8.3385 time : 0.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 6.247675 velocity : -8.829 time : 0.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 5.806225 velocity : -9.3195 time : 0.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 5.34025 velocity : -9.81 time : 1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 4.84975 velocity : -10.3005 time : 1.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 4.334725 velocity : -10.791 time : 1.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 3.795175 velocity : -11.2815 time : 1.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 3.2311 velocity : -11.772 time : 1.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.6425 velocity : -12.2625 time : 1.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.029375 velocity : -12.753 time : 1.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.391725 velocity : -13.2435 time : 1.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.729549999999998 velocity : -13.734 time : 1.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0428499999999978 velocity : -14.2245 time : 1.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.668375000000003 velocity : -14.715 time : 1.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt026 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.668375000000003 velocity : -14.715 time : 1.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : False __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<0>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 1 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.668375000000003 velocity : -14.715 time : 1.5 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.668375000000003 velocity : -14.715 time : 1.5 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<1>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 2 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.668375000000003 velocity : -14.715 time : 1.5 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.668375000000003 velocity : -14.715 time : 1.5 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<2>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 7.35750000000001 =========================================== SIMULATION STEP 3 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.668375000000003 velocity : 7.35750000000001 time : 1.5 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.300500000000002 velocity : 6.86700000000001 time : 1.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0428499999999978 velocity : 6.37650000000001 time : 1.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.361674999999998 velocity : 5.88600000000001 time : 1.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.655974999999998 velocity : 5.39550000000001 time : 1.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.925749999999999 velocity : 4.90500000000001 time : 1.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.171 velocity : 4.41450000000001 time : 1.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.391725 velocity : 3.92400000000001 time : 1.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.587925 velocity : 3.43350000000001 time : 1.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.7596 velocity : 2.94300000000001 time : 1.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.90675 velocity : 2.45250000000001 time : 2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.029375 velocity : 1.96200000000001 time : 2.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.127475 velocity : 1.47150000000001 time : 2.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.20105 velocity : 0.981000000000006 time : 2.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.2501 velocity : 0.490500000000006 time : 2.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.274625 velocity : 5.88418203051333E-15 time : 2.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.274625 velocity : -0.490499999999994 time : 2.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.2501 velocity : -0.980999999999994 time : 2.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.20105 velocity : -1.47149999999999 time : 2.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.127475 velocity : -1.96199999999999 time : 2.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 2.029375 velocity : -2.45249999999999 time : 2.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.90675 velocity : -2.94299999999999 time : 2.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.7596 velocity : -3.43349999999999 time : 2.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.587925 velocity : -3.92399999999999 time : 2.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.391725 velocity : -4.41449999999999 time : 2.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 1.171 velocity : -4.90499999999999 time : 2.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.925750000000005 velocity : -5.39549999999999 time : 2.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.655975000000005 velocity : -5.88599999999999 time : 2.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.361675000000005 velocity : -6.37649999999999 time : 2.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0428500000000054 velocity : -6.86699999999999 time : 2.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.300499999999994 velocity : -7.35749999999999 time : 3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.300499999999994 velocity : -7.35749999999999 time : 3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<3>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 4 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.300499999999994 velocity : -7.35749999999999 time : 3 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.300499999999994 velocity : -7.35749999999999 time : 3 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<4>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 5 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.300499999999994 velocity : -7.35749999999999 time : 3 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.300499999999994 velocity : -7.35749999999999 time : 3 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<5>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 3.67875 =========================================== SIMULATION STEP 6 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.300499999999994 velocity : 3.67875 time : 3 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.116562499999994 velocity : 3.18825 time : 3.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0428500000000054 velocity : 2.69775 time : 3.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.177737500000005 velocity : 2.20725 time : 3.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.288100000000005 velocity : 1.71675 time : 3.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.373937500000005 velocity : 1.22625 time : 3.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.435250000000005 velocity : 0.735749999999997 time : 3.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.472037500000005 velocity : 0.245249999999997 time : 3.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.484300000000005 velocity : -0.245250000000003 time : 3.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.472037500000004 velocity : -0.735750000000003 time : 3.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.435250000000004 velocity : -1.22625 time : 3.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.373937500000004 velocity : -1.71675 time : 3.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.288100000000004 velocity : -2.20725 time : 3.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.177737500000004 velocity : -2.69775 time : 3.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0428500000000037 velocity : -3.18825 time : 3.69999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.116562499999996 velocity : -3.67875 time : 3.74999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.116562499999996 velocity : -3.67875 time : 3.74999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<6>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 7 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.116562499999996 velocity : -3.67875 time : 3.74999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.116562499999996 velocity : -3.67875 time : 3.74999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<7>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 8 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.116562499999996 velocity : -3.67875 time : 3.74999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.116562499999996 velocity : -3.67875 time : 3.74999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<8>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 1.839375 =========================================== SIMULATION STEP 9 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.116562499999996 velocity : 1.839375 time : 3.74999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.0245937499999963 velocity : 1.348875 time : 3.79999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0428500000000037 velocity : 0.858375000000001 time : 3.84999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0857687500000038 velocity : 0.367875000000001 time : 3.89999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.104162500000004 velocity : -0.122624999999999 time : 3.94999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0980312500000039 velocity : -0.613124999999999 time : 3.99999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.067375000000004 velocity : -1.103625 time : 4.04999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0121937500000041 velocity : -1.594125 time : 4.09999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.0675124999999959 velocity : -2.084625 time : 4.14999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.0675124999999959 velocity : -2.084625 time : 4.14999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<9>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 10 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0675124999999959 velocity : -2.084625 time : 4.14999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0675124999999959 velocity : -2.084625 time : 4.14999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<10>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 11 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0675124999999959 velocity : -2.084625 time : 4.14999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0675124999999959 velocity : -2.084625 time : 4.14999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<11>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 1.0423125 =========================================== SIMULATION STEP 12 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0675124999999959 velocity : 1.0423125 time : 4.14999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.0153968749999959 velocity : 0.551812499999999 time : 4.19999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0121937500000041 velocity : 0.0613124999999992 time : 4.24999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.429187500000001 time : 4.29999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00619999999999601 velocity : -0.919687500000001 time : 4.34999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00619999999999601 velocity : -0.919687500000001 time : 4.34999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<12>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 13 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00619999999999601 velocity : -0.919687500000001 time : 4.34999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00619999999999601 velocity : -0.919687500000001 time : 4.34999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<13>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 14 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00619999999999601 velocity : -0.919687500000001 time : 4.34999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00619999999999601 velocity : -0.919687500000001 time : 4.34999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<14>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.45984375 =========================================== SIMULATION STEP 15 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00619999999999601 velocity : 0.45984375 time : 4.34999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.016792187500004 velocity : -0.0306562499999996 time : 4.39999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.52115625 time : 4.44999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.010798437499996 velocity : -1.01165625 time : 4.49999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.010798437499996 velocity : -1.01165625 time : 4.49999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<15>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 16 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.010798437499996 velocity : -1.01165625 time : 4.49999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.010798437499996 velocity : -1.01165625 time : 4.49999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<16>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 17 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.010798437499996 velocity : -1.01165625 time : 4.49999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.010798437499996 velocity : -1.01165625 time : 4.49999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<17>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.505828125 =========================================== SIMULATION STEP 18 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.010798437499996 velocity : 0.505828125 time : 4.49999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.014492968750004 velocity : 0.0153281249999998 time : 4.54999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.475171875 time : 4.59999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00849921874999598 velocity : -0.965671875 time : 4.64999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00849921874999598 velocity : -0.965671875 time : 4.64999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<18>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 19 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00849921874999598 velocity : -0.965671875 time : 4.64999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00849921874999598 velocity : -0.965671875 time : 4.64999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<19>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 20 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00849921874999598 velocity : -0.965671875 time : 4.64999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00849921874999598 velocity : -0.965671875 time : 4.64999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<20>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4828359375 =========================================== SIMULATION STEP 21 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00849921874999598 velocity : 0.4828359375 time : 4.64999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015642578125004 velocity : -0.0076640624999999 time : 4.69999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.4981640625 time : 4.74999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00964882812499597 velocity : -0.9886640625 time : 4.79999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00964882812499597 velocity : -0.9886640625 time : 4.79999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<21>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 22 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00964882812499597 velocity : -0.9886640625 time : 4.79999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00964882812499597 velocity : -0.9886640625 time : 4.79999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<22>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 23 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00964882812499597 velocity : -0.9886640625 time : 4.79999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00964882812499597 velocity : -0.9886640625 time : 4.79999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<23>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.49433203125 =========================================== SIMULATION STEP 24 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00964882812499597 velocity : 0.49433203125 time : 4.79999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015067773437504 velocity : 0.00383203124999998 time : 4.84999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.48666796875 time : 4.89999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00907402343749597 velocity : -0.97716796875 time : 4.94999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00907402343749597 velocity : -0.97716796875 time : 4.94999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<24>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 25 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00907402343749597 velocity : -0.97716796875 time : 4.94999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00907402343749597 velocity : -0.97716796875 time : 4.94999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<25>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 26 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00907402343749597 velocity : -0.97716796875 time : 4.94999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00907402343749597 velocity : -0.97716796875 time : 4.94999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<26>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.488583984375 =========================================== SIMULATION STEP 27 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00907402343749597 velocity : 0.488583984375 time : 4.94999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015355175781254 velocity : -0.00191601562499999 time : 4.99999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.492416015625 time : 5.04999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00936142578124597 velocity : -0.982916015625 time : 5.09999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00936142578124597 velocity : -0.982916015625 time : 5.09999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<27>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 28 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00936142578124597 velocity : -0.982916015625 time : 5.09999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00936142578124597 velocity : -0.982916015625 time : 5.09999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<28>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 29 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00936142578124597 velocity : -0.982916015625 time : 5.09999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00936142578124597 velocity : -0.982916015625 time : 5.09999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<29>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4914580078125 =========================================== SIMULATION STEP 30 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00936142578124597 velocity : 0.4914580078125 time : 5.09999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015211474609379 velocity : 0.000958007812499995 time : 5.14999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.4895419921875 time : 5.19999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00921772460937097 velocity : -0.9800419921875 time : 5.24999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00921772460937097 velocity : -0.9800419921875 time : 5.24999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<30>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 31 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00921772460937097 velocity : -0.9800419921875 time : 5.24999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00921772460937097 velocity : -0.9800419921875 time : 5.24999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<31>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 32 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00921772460937097 velocity : -0.9800419921875 time : 5.24999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00921772460937097 velocity : -0.9800419921875 time : 5.24999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<32>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.49002099609375 =========================================== SIMULATION STEP 33 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00921772460937097 velocity : 0.49002099609375 time : 5.24999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152833251953165 velocity : -0.000479003906249997 time : 5.29999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.49097900390625 time : 5.34999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00928957519530847 velocity : -0.98147900390625 time : 5.39999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00928957519530847 velocity : -0.98147900390625 time : 5.39999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<33>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 34 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00928957519530847 velocity : -0.98147900390625 time : 5.39999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00928957519530847 velocity : -0.98147900390625 time : 5.39999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<34>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 35 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00928957519530847 velocity : -0.98147900390625 time : 5.39999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00928957519530847 velocity : -0.98147900390625 time : 5.39999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<35>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490739501953125 =========================================== SIMULATION STEP 36 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00928957519530847 velocity : 0.490739501953125 time : 5.39999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152473999023478 velocity : 0.000239501953124999 time : 5.44999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490260498046875 time : 5.49999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00925364990233972 velocity : -0.980760498046875 time : 5.54999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00925364990233972 velocity : -0.980760498046875 time : 5.54999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<36>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 37 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00925364990233972 velocity : -0.980760498046875 time : 5.54999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00925364990233972 velocity : -0.980760498046875 time : 5.54999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<37>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 38 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00925364990233972 velocity : -0.980760498046875 time : 5.54999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00925364990233972 velocity : -0.980760498046875 time : 5.54999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<38>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490380249023438 =========================================== SIMULATION STEP 39 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00925364990233972 velocity : 0.490380249023438 time : 5.54999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152653625488322 velocity : -0.000119750976562472 time : 5.59999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490619750976563 time : 5.64999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00927161254882409 velocity : -0.981119750976563 time : 5.69999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00927161254882409 velocity : -0.981119750976563 time : 5.69999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<39>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 40 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00927161254882409 velocity : -0.981119750976563 time : 5.69999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00927161254882409 velocity : -0.981119750976563 time : 5.69999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<40>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 41 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00927161254882409 velocity : -0.981119750976563 time : 5.69999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00927161254882409 velocity : -0.981119750976563 time : 5.69999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<41>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490559875488281 =========================================== SIMULATION STEP 42 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00927161254882409 velocity : 0.490559875488281 time : 5.69999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.01525638122559 velocity : 5.98754882812358E-05 time : 5.74999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490440124511719 time : 5.79999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.0092626312255819 velocity : -0.980940124511719 time : 5.84999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.0092626312255819 velocity : -0.980940124511719 time : 5.84999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<42>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 43 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092626312255819 velocity : -0.980940124511719 time : 5.84999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0092626312255819 velocity : -0.980940124511719 time : 5.84999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<43>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 44 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092626312255819 velocity : -0.980940124511719 time : 5.84999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0092626312255819 velocity : -0.980940124511719 time : 5.84999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<44>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490470062255859 =========================================== SIMULATION STEP 45 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092626312255819 velocity : 0.490470062255859 time : 5.84999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152608718872111 velocity : -2.99377441406179E-05 time : 5.89999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490529937744141 time : 5.94999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.009267121887203 velocity : -0.981029937744141 time : 5.99999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.009267121887203 velocity : -0.981029937744141 time : 5.99999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<45>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 46 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.009267121887203 velocity : -0.981029937744141 time : 5.99999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.009267121887203 velocity : -0.981029937744141 time : 5.99999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<46>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 47 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.009267121887203 velocity : -0.981029937744141 time : 5.99999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.009267121887203 velocity : -0.981029937744141 time : 5.99999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<47>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.49051496887207 =========================================== SIMULATION STEP 48 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.009267121887203 velocity : 0.49051496887207 time : 5.99999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152586265564005 velocity : 1.49688720703089E-05 time : 6.04999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.49048503112793 time : 6.09999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926487655639245 velocity : -0.98098503112793 time : 6.14999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926487655639245 velocity : -0.98098503112793 time : 6.14999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<48>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 49 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926487655639245 velocity : -0.98098503112793 time : 6.14999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926487655639245 velocity : -0.98098503112793 time : 6.14999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<49>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 50 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926487655639245 velocity : -0.98098503112793 time : 6.14999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926487655639245 velocity : -0.98098503112793 time : 6.14999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<50>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490492515563965 =========================================== SIMULATION STEP 51 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926487655639245 velocity : 0.490492515563965 time : 6.14999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152597492218058 velocity : -7.48443603515447E-06 time : 6.19999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490507484436035 time : 6.24999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926599922179772 velocity : -0.981007484436035 time : 6.29999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926599922179772 velocity : -0.981007484436035 time : 6.29999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<51>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 52 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926599922179772 velocity : -0.981007484436035 time : 6.29999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926599922179772 velocity : -0.981007484436035 time : 6.29999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<52>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 53 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926599922179772 velocity : -0.981007484436035 time : 6.29999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926599922179772 velocity : -0.981007484436035 time : 6.29999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<53>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490503742218018 =========================================== SIMULATION STEP 54 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926599922179772 velocity : 0.490503742218018 time : 6.29999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152591878891032 velocity : 3.74221801757724E-06 time : 6.34999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490496257781982 time : 6.39999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926543788909509 velocity : -0.980996257781983 time : 6.44999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926543788909509 velocity : -0.980996257781983 time : 6.44999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<54>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 55 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926543788909509 velocity : -0.980996257781983 time : 6.44999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926543788909509 velocity : -0.980996257781983 time : 6.44999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<55>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 56 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926543788909509 velocity : -0.980996257781983 time : 6.44999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926543788909509 velocity : -0.980996257781983 time : 6.44999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<56>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490498128890991 =========================================== SIMULATION STEP 57 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926543788909509 velocity : 0.490498128890991 time : 6.44999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152594685554545 velocity : -1.87110900878862E-06 time : 6.49999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490501871109009 time : 6.54999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926571855544641 velocity : -0.981001871109009 time : 6.59999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926571855544641 velocity : -0.981001871109009 time : 6.59999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<57>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 58 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926571855544641 velocity : -0.981001871109009 time : 6.59999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926571855544641 velocity : -0.981001871109009 time : 6.59999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<58>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 59 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926571855544641 velocity : -0.981001871109009 time : 6.59999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926571855544641 velocity : -0.981001871109009 time : 6.59999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<59>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500935554504 =========================================== SIMULATION STEP 60 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926571855544641 velocity : 0.490500935554504 time : 6.59999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593282222788 velocity : 9.35554504422065E-07 time : 6.64999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499064445496 time : 6.69999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926557822227074 velocity : -0.980999064445496 time : 6.74999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926557822227074 velocity : -0.980999064445496 time : 6.74999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<60>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 61 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926557822227074 velocity : -0.980999064445496 time : 6.74999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926557822227074 velocity : -0.980999064445496 time : 6.74999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<61>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 62 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926557822227074 velocity : -0.980999064445496 time : 6.74999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926557822227074 velocity : -0.980999064445496 time : 6.74999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<62>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499532222748 =========================================== SIMULATION STEP 63 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926557822227074 velocity : 0.490499532222748 time : 6.74999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593983888667 velocity : -4.67777252211032E-07 time : 6.79999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500467777252 time : 6.84999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926564838885858 velocity : -0.981000467777252 time : 6.89999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926564838885858 velocity : -0.981000467777252 time : 6.89999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<63>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 64 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926564838885858 velocity : -0.981000467777252 time : 6.89999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926564838885858 velocity : -0.981000467777252 time : 6.89999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<64>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 65 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926564838885858 velocity : -0.981000467777252 time : 6.89999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926564838885858 velocity : -0.981000467777252 time : 6.89999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<65>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500233888626 =========================================== SIMULATION STEP 66 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926564838885858 velocity : 0.490500233888626 time : 6.89999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593633055727 velocity : 2.33888626133272E-07 time : 6.94999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499766111374 time : 6.99999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926561330556465 velocity : -0.980999766111374 time : 7.04999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926561330556465 velocity : -0.980999766111374 time : 7.04999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<66>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 67 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926561330556465 velocity : -0.980999766111374 time : 7.04999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926561330556465 velocity : -0.980999766111374 time : 7.04999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<67>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 68 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926561330556465 velocity : -0.980999766111374 time : 7.04999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926561330556465 velocity : -0.980999766111374 time : 7.04999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<68>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499883055687 =========================================== SIMULATION STEP 69 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926561330556465 velocity : 0.490499883055687 time : 7.04999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593808472197 velocity : -1.16944313066636E-07 time : 7.09999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500116944313 time : 7.14999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926563084721162 velocity : -0.981000116944313 time : 7.19999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926563084721162 velocity : -0.981000116944313 time : 7.19999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<69>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 70 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926563084721162 velocity : -0.981000116944313 time : 7.19999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926563084721162 velocity : -0.981000116944313 time : 7.19999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<70>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 71 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926563084721162 velocity : -0.981000116944313 time : 7.19999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926563084721162 velocity : -0.981000116944313 time : 7.19999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<71>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500058472157 =========================================== SIMULATION STEP 72 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926563084721162 velocity : 0.490500058472157 time : 7.19999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593720763962 velocity : 5.84721565610735E-08 time : 7.24999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499941527843 time : 7.29999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562207638813 velocity : -0.980999941527844 time : 7.34999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562207638813 velocity : -0.980999941527844 time : 7.34999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<72>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 73 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562207638813 velocity : -0.980999941527844 time : 7.34999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562207638813 velocity : -0.980999941527844 time : 7.34999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<73>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 74 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562207638813 velocity : -0.980999941527844 time : 7.34999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562207638813 velocity : -0.980999941527844 time : 7.34999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<74>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499970763922 =========================================== SIMULATION STEP 75 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562207638813 velocity : 0.490499970763922 time : 7.34999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259376461808 velocity : -2.92360782805368E-08 time : 7.39999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500029236078 time : 7.44999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562646179987 velocity : -0.981000029236078 time : 7.49999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562646179987 velocity : -0.981000029236078 time : 7.49999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<75>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 76 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562646179987 velocity : -0.981000029236078 time : 7.49999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562646179987 velocity : -0.981000029236078 time : 7.49999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<76>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 77 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562646179987 velocity : -0.981000029236078 time : 7.49999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562646179987 velocity : -0.981000029236078 time : 7.49999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<77>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500014618039 =========================================== SIMULATION STEP 78 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562646179987 velocity : 0.490500014618039 time : 7.49999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593742691021 velocity : 1.46180391125128E-08 time : 7.54999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499985381961 time : 7.59999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562426909401 velocity : -0.980999985381961 time : 7.64999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562426909401 velocity : -0.980999985381961 time : 7.64999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<78>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 79 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562426909401 velocity : -0.980999985381961 time : 7.64999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562426909401 velocity : -0.980999985381961 time : 7.64999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<79>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 80 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562426909401 velocity : -0.980999985381961 time : 7.64999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562426909401 velocity : -0.980999985381961 time : 7.64999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<80>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.49049999269098 =========================================== SIMULATION STEP 81 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562426909401 velocity : 0.49049999269098 time : 7.64999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375365455 velocity : -7.3090195562564E-09 time : 7.69999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.49050000730902 time : 7.74999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562536544694 velocity : -0.98100000730902 time : 7.79999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562536544694 velocity : -0.98100000730902 time : 7.79999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<81>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 82 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562536544694 velocity : -0.98100000730902 time : 7.79999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562536544694 velocity : -0.98100000730902 time : 7.79999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<82>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 83 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562536544694 velocity : -0.98100000730902 time : 7.79999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562536544694 velocity : -0.98100000730902 time : 7.79999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<83>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.49050000365451 =========================================== SIMULATION STEP 84 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562536544694 velocity : 0.49050000365451 time : 7.79999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593748172786 velocity : 3.65450980588378E-09 time : 7.84999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.49049999634549 time : 7.89999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562481727047 velocity : -0.98099999634549 time : 7.94999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562481727047 velocity : -0.98099999634549 time : 7.94999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<84>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 85 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562481727047 velocity : -0.98099999634549 time : 7.94999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562481727047 velocity : -0.98099999634549 time : 7.94999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<85>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 86 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562481727047 velocity : -0.98099999634549 time : 7.94999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562481727047 velocity : -0.98099999634549 time : 7.94999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<86>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499998172745 =========================================== SIMULATION STEP 87 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562481727047 velocity : 0.490499998172745 time : 7.94999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750913668 velocity : -1.82725490294189E-09 time : 7.99999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500001827255 time : 8.04999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562509135871 velocity : -0.981000001827255 time : 8.09999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562509135871 velocity : -0.981000001827255 time : 8.09999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<87>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 88 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562509135871 velocity : -0.981000001827255 time : 8.09999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562509135871 velocity : -0.981000001827255 time : 8.09999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<88>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 89 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562509135871 velocity : -0.981000001827255 time : 8.09999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562509135871 velocity : -0.981000001827255 time : 8.09999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<89>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000913628 =========================================== SIMULATION STEP 90 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562509135871 velocity : 0.490500000913628 time : 8.09999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593749543227 velocity : 9.13627451470944E-10 time : 8.14999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999086373 time : 8.19999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562495431459 velocity : -0.980999999086373 time : 8.24999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562495431459 velocity : -0.980999999086373 time : 8.24999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<90>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 91 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562495431459 velocity : -0.980999999086373 time : 8.24999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562495431459 velocity : -0.980999999086373 time : 8.24999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<91>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 92 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562495431459 velocity : -0.980999999086373 time : 8.24999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562495431459 velocity : -0.980999999086373 time : 8.24999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<92>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999543186 =========================================== SIMULATION STEP 93 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562495431459 velocity : 0.490499999543186 time : 8.24999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750228447 velocity : -4.56813697979896E-10 time : 8.29999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000456814 time : 8.34999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562502283664 velocity : -0.981000000456814 time : 8.39999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562502283664 velocity : -0.981000000456814 time : 8.39999999999998 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<93>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 94 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562502283664 velocity : -0.981000000456814 time : 8.39999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562502283664 velocity : -0.981000000456814 time : 8.39999999999998 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<94>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 95 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562502283664 velocity : -0.981000000456814 time : 8.39999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562502283664 velocity : -0.981000000456814 time : 8.39999999999998 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<95>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000228407 =========================================== SIMULATION STEP 96 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562502283664 velocity : 0.490500000228407 time : 8.39999999999998 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593749885837 velocity : 2.28406848989948E-10 time : 8.44999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999771593 time : 8.49999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562498857562 velocity : -0.980999999771593 time : 8.54999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562498857562 velocity : -0.980999999771593 time : 8.54999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<96>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 97 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562498857562 velocity : -0.980999999771593 time : 8.54999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562498857562 velocity : -0.980999999771593 time : 8.54999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<97>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 98 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562498857562 velocity : -0.980999999771593 time : 8.54999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562498857562 velocity : -0.980999999771593 time : 8.54999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<98>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999885797 =========================================== SIMULATION STEP 99 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562498857562 velocity : 0.490499999885797 time : 8.54999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750057142 velocity : -1.14203424494974E-10 time : 8.59999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000114203 time : 8.64999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562500570613 velocity : -0.981000000114204 time : 8.69999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562500570613 velocity : -0.981000000114204 time : 8.69999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<99>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 100 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500570613 velocity : -0.981000000114204 time : 8.69999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500570613 velocity : -0.981000000114204 time : 8.69999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<100>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 101 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500570613 velocity : -0.981000000114204 time : 8.69999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500570613 velocity : -0.981000000114204 time : 8.69999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<101>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000057102 =========================================== SIMULATION STEP 102 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500570613 velocity : 0.490500000057102 time : 8.69999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259374997149 velocity : 5.71017122474871E-11 time : 8.74999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999942898 time : 8.79999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499714087 velocity : -0.980999999942898 time : 8.84999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499714087 velocity : -0.980999999942898 time : 8.84999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<102>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 103 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499714087 velocity : -0.980999999942898 time : 8.84999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499714087 velocity : -0.980999999942898 time : 8.84999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<103>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 104 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499714087 velocity : -0.980999999942898 time : 8.84999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499714087 velocity : -0.980999999942898 time : 8.84999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<104>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999971449 =========================================== SIMULATION STEP 105 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499714087 velocity : 0.490499999971449 time : 8.84999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750014316 velocity : -2.85508283681679E-11 time : 8.89999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000028551 time : 8.94999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562500142349 velocity : -0.981000000028551 time : 8.99999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562500142349 velocity : -0.981000000028551 time : 8.99999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<105>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 106 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500142349 velocity : -0.981000000028551 time : 8.99999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500142349 velocity : -0.981000000028551 time : 8.99999999999999 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<106>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 107 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500142349 velocity : -0.981000000028551 time : 8.99999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500142349 velocity : -0.981000000028551 time : 8.99999999999999 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<107>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000014275 =========================================== SIMULATION STEP 108 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500142349 velocity : 0.490500000014275 time : 8.99999999999999 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593749992903 velocity : 1.4275414184084E-11 time : 9.04999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.490499999985725 time : 9.09999999999999 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499928218 velocity : -0.980999999985725 time : 9.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499928218 velocity : -0.980999999985725 time : 9.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<108>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 109 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499928218 velocity : -0.980999999985725 time : 9.15 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499928218 velocity : -0.980999999985725 time : 9.15 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<109>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 110 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499928218 velocity : -0.980999999985725 time : 9.15 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499928218 velocity : -0.980999999985725 time : 9.15 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<110>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999992862 =========================================== SIMULATION STEP 111 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499928218 velocity : 0.490499999992862 time : 9.15 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750003609 velocity : -7.13773484761759E-12 time : 9.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000007138 time : 9.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562500035284 velocity : -0.981000000007138 time : 9.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562500035284 velocity : -0.981000000007138 time : 9.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<111>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 112 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500035284 velocity : -0.981000000007138 time : 9.3 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500035284 velocity : -0.981000000007138 time : 9.3 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<112>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 113 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500035284 velocity : -0.981000000007138 time : 9.3 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500035284 velocity : -0.981000000007138 time : 9.3 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<113>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000003569 =========================================== SIMULATION STEP 114 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500035284 velocity : 0.490500000003569 time : 9.3 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593749998256 velocity : 3.5688674238088E-12 time : 9.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999996431 time : 9.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499981751 velocity : -0.980999999996431 time : 9.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499981751 velocity : -0.980999999996431 time : 9.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<114>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 115 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499981751 velocity : -0.980999999996431 time : 9.45 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499981751 velocity : -0.980999999996431 time : 9.45 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<115>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 116 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499981751 velocity : -0.980999999996431 time : 9.45 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499981751 velocity : -0.980999999996431 time : 9.45 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<116>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999998216 =========================================== SIMULATION STEP 117 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499981751 velocity : 0.490499999998216 time : 9.45 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000933 velocity : -1.78446146748001E-12 time : 9.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000001785 time : 9.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562500008518 velocity : -0.981000000001785 time : 9.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562500008518 velocity : -0.981000000001785 time : 9.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<117>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 118 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500008518 velocity : -0.981000000001785 time : 9.6 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500008518 velocity : -0.981000000001785 time : 9.6 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<118>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 119 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500008518 velocity : -0.981000000001785 time : 9.6 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500008518 velocity : -0.981000000001785 time : 9.6 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<119>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000000892 =========================================== SIMULATION STEP 120 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500008518 velocity : 0.490500000000892 time : 9.6 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593749999594 velocity : 8.92230733740007E-13 time : 9.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999999108 time : 9.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499995134 velocity : -0.980999999999108 time : 9.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499995134 velocity : -0.980999999999108 time : 9.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<120>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 121 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499995134 velocity : -0.980999999999108 time : 9.75 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499995134 velocity : -0.980999999999108 time : 9.75 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<121>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 122 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499995134 velocity : -0.980999999999108 time : 9.75 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499995134 velocity : -0.980999999999108 time : 9.75 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<122>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999999554 =========================================== SIMULATION STEP 123 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499995134 velocity : 0.490499999999554 time : 9.75 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000264 velocity : -4.46087611294388E-13 time : 9.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.490500000000446 time : 9.85000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562500001826 velocity : -0.981000000000446 time : 9.90000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562500001826 velocity : -0.981000000000446 time : 9.90000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<123>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 124 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500001826 velocity : -0.981000000000446 time : 9.90000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500001826 velocity : -0.981000000000446 time : 9.90000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<124>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 125 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500001826 velocity : -0.981000000000446 time : 9.90000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500001826 velocity : -0.981000000000446 time : 9.90000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<125>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000000223 =========================================== SIMULATION STEP 126 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500001826 velocity : 0.490500000000223 time : 9.90000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593749999929 velocity : 2.23043805647194E-13 time : 9.95000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.490499999999777 time : 10 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.0092656249999848 velocity : -0.980999999999777 time : 10.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.0092656249999848 velocity : -0.980999999999777 time : 10.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<126>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 127 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092656249999848 velocity : -0.980999999999777 time : 10.05 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0092656249999848 velocity : -0.980999999999777 time : 10.05 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<127>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 128 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092656249999848 velocity : -0.980999999999777 time : 10.05 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0092656249999848 velocity : -0.980999999999777 time : 10.05 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<128>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999999889 =========================================== SIMULATION STEP 129 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092656249999848 velocity : 0.490499999999889 time : 10.05 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000096 velocity : -1.11521902823597E-13 time : 10.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.490500000000112 time : 10.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562500000153 velocity : -0.981000000000112 time : 10.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562500000153 velocity : -0.981000000000112 time : 10.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<129>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 130 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500000153 velocity : -0.981000000000112 time : 10.2 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500000153 velocity : -0.981000000000112 time : 10.2 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<130>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 131 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500000153 velocity : -0.981000000000112 time : 10.2 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562500000153 velocity : -0.981000000000112 time : 10.2 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<131>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000000056 =========================================== SIMULATION STEP 132 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562500000153 velocity : 0.490500000000056 time : 10.2 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000013 velocity : 5.57331958361829E-14 time : 10.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999999944 time : 10.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999317 velocity : -0.980999999999944 time : 10.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999317 velocity : -0.980999999999944 time : 10.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<132>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 133 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999317 velocity : -0.980999999999944 time : 10.35 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999317 velocity : -0.980999999999944 time : 10.35 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<133>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 134 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999317 velocity : -0.980999999999944 time : 10.35 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999317 velocity : -0.980999999999944 time : 10.35 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<134>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999999972 =========================================== SIMULATION STEP 135 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999317 velocity : 0.490499999999972 time : 10.35 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000054 velocity : -2.78665979180914E-14 time : 10.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.490500000000028 time : 10.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999735 velocity : -0.981000000000028 time : 10.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999735 velocity : -0.981000000000028 time : 10.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<135>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 136 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999735 velocity : -0.981000000000028 time : 10.5 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999735 velocity : -0.981000000000028 time : 10.5 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<136>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 137 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999735 velocity : -0.981000000000028 time : 10.5 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999735 velocity : -0.981000000000028 time : 10.5 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<137>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000000014 =========================================== SIMULATION STEP 138 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999735 velocity : 0.490500000000014 time : 10.5 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000034 velocity : 1.39332989590457E-14 time : 10.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.490499999999986 time : 10.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999526 velocity : -0.980999999999986 time : 10.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999526 velocity : -0.980999999999986 time : 10.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<138>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 139 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999526 velocity : -0.980999999999986 time : 10.65 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999526 velocity : -0.980999999999986 time : 10.65 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<139>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 140 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999526 velocity : -0.980999999999986 time : 10.65 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999526 velocity : -0.980999999999986 time : 10.65 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<140>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999999993 =========================================== SIMULATION STEP 141 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999526 velocity : 0.490499999999993 time : 10.65 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000044 velocity : -6.99440505513849E-15 time : 10.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000000007 time : 10.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.0092656249999963 velocity : -0.981000000000007 time : 10.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.0092656249999963 velocity : -0.981000000000007 time : 10.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<141>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 142 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092656249999963 velocity : -0.981000000000007 time : 10.8 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0092656249999963 velocity : -0.981000000000007 time : 10.8 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<142>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 143 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092656249999963 velocity : -0.981000000000007 time : 10.8 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.0092656249999963 velocity : -0.981000000000007 time : 10.8 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<143>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000000004 =========================================== SIMULATION STEP 144 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.0092656249999963 velocity : 0.490500000000004 time : 10.8 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000039 velocity : 3.49720252756924E-15 time : 10.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999999997 time : 10.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999578 velocity : -0.980999999999997 time : 10.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999578 velocity : -0.980999999999997 time : 10.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<144>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 145 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999578 velocity : -0.980999999999997 time : 10.95 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999578 velocity : -0.980999999999997 time : 10.95 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<145>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 146 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999578 velocity : -0.980999999999997 time : 10.95 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999578 velocity : -0.980999999999997 time : 10.95 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<146>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490499999999998 =========================================== SIMULATION STEP 147 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999578 velocity : 0.490499999999998 time : 10.95 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -1.77635683940025E-15 time : 11 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490500000000002 time : 11.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999604 velocity : -0.981000000000002 time : 11.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999604 velocity : -0.981000000000002 time : 11.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<147>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 148 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999604 velocity : -0.981000000000002 time : 11.1 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999604 velocity : -0.981000000000002 time : 11.1 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<148>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 149 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999604 velocity : -0.981000000000002 time : 11.1 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999604 velocity : -0.981000000000002 time : 11.1 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<149>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.490500000000001 =========================================== SIMULATION STEP 150 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999604 velocity : 0.490500000000001 time : 11.1 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : 8.88178419700125E-16 time : 11.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.490499999999999 time : 11.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999591 velocity : -0.980999999999999 time : 11.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999591 velocity : -0.980999999999999 time : 11.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<150>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 151 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999591 velocity : -0.980999999999999 time : 11.25 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999591 velocity : -0.980999999999999 time : 11.25 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<151>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 152 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999591 velocity : -0.980999999999999 time : 11.25 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999591 velocity : -0.980999999999999 time : 11.25 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<152>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 153 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999591 velocity : 0.4905 time : 11.25 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -4.44089209850063E-16 time : 11.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.4905 time : 11.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999598 velocity : -0.981000000000001 time : 11.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999598 velocity : -0.981000000000001 time : 11.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<153>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 154 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999598 velocity : -0.981000000000001 time : 11.4 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999598 velocity : -0.981000000000001 time : 11.4 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<154>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 155 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999598 velocity : -0.981000000000001 time : 11.4 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999598 velocity : -0.981000000000001 time : 11.4 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<155>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 156 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999598 velocity : 0.4905 time : 11.4 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : 2.22044604925031E-16 time : 11.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.4905 time : 11.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 11.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 11.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<156>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 157 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.55 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.55 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<157>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 158 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.55 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.55 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<158>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 159 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 11.55 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -1.11022302462516E-16 time : 11.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.4905 time : 11.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999596 velocity : -0.981 time : 11.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999596 velocity : -0.981 time : 11.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<159>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 160 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999596 velocity : -0.981 time : 11.7 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999596 velocity : -0.981 time : 11.7 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<160>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 161 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999596 velocity : -0.981 time : 11.7 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999596 velocity : -0.981 time : 11.7 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<161>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 162 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999596 velocity : 0.4905 time : 11.7 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : 5.55111512312578E-17 time : 11.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.015259375000004 velocity : -0.4905 time : 11.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 11.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 11.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<162>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 163 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.85 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.85 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<163>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 164 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.85 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 11.85 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<164>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 165 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 11.85 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 11.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 11.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<165>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 166 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<166>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 167 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<167>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 168 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.05 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 12.1 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.15 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<168>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 169 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.15 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.15 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<169>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 170 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.15 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.15 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<170>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 171 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12.15 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.2 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 12.25 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.3 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<171>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 172 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.3 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.3 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<172>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 173 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.3 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.3 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<173>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 174 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12.3 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.35 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 12.4 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.45 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<174>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 175 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.45 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.45 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<175>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 176 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.45 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.45 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<176>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 177 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12.45 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.5 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 12.55 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.6 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<177>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 178 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.6 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.6 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<178>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 179 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.6 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.6 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<179>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 180 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12.6 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.65 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 12.7 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.75 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<180>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 181 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.75 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.75 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<181>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 182 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.75 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.75 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<182>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 183 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12.75 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.8 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 12.85 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 12.9 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<183>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 184 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.9 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.9 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<184>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 185 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.9 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 12.9 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<185>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 186 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 12.9 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 12.95 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.0000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.0500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.0500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<186>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 187 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.0500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.0500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<187>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 188 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.0500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.0500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<188>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 189 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.0500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 13.1000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.1500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.2000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.2000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<189>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 190 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.2000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.2000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<190>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 191 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.2000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.2000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<191>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 192 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.2000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 13.2500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.3000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.3500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.3500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<192>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 193 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.3500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.3500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<193>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 194 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.3500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.3500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<194>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 195 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.3500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 13.4000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.4500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.5000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.5000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<195>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 196 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.5000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.5000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<196>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 197 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.5000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.5000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<197>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 198 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.5000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 13.5500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.6000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.6500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.6500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<198>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 199 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.6500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.6500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<199>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 200 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.6500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.6500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<200>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 201 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.6500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 13.7000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.7500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.8000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.8000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<201>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 202 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.8000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.8000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<202>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 203 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.8000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.8000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<203>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 204 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.8000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 13.8500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 13.9000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.9500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 13.9500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<204>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 205 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.9500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.9500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<205>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 206 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.9500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 13.9500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<206>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 207 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 13.9500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.0000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.0500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.1000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.1000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<207>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 208 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.1000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.1000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<208>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 209 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.1000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.1000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<209>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 210 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 14.1000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.1500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.2000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.2500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.2500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<210>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 211 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.2500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.2500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<211>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 212 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.2500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.2500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<212>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 213 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 14.2500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.3000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.3500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.4000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.4000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<213>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 214 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.4000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.4000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<214>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 215 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.4000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.4000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<215>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 216 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 14.4000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.4500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.5000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.5500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.5500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<216>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 217 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.5500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.5500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<217>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 218 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.5500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.5500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<218>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 219 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 14.5500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.6000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.6500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.7000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.7000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<219>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 220 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.7000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.7000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<220>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 221 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.7000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.7000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<221>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 222 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 14.7000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.7500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.8000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.8500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 14.8500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<222>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 223 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.8500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.8500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<223>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 224 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.8500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 14.8500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<224>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 225 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 14.8500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 14.9000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 14.9500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.0000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.0000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<225>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 226 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.0000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.0000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<226>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 227 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.0000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.0000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<227>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 228 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.0000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.0500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 15.1000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.1500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.1500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<228>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 229 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.1500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.1500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<229>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 230 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.1500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.1500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<230>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 231 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.1500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.2000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 15.2500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.3000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.3000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<231>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 232 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.3000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.3000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<232>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 233 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.3000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.3000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<233>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 234 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.3000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.3500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 15.4000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.4500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.4500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<234>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 235 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.4500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.4500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<235>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 236 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.4500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.4500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<236>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 237 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.4500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.5000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 15.5500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.6000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.6000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<237>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 238 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.6000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.6000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<238>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 239 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.6000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.6000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<239>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 240 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.6000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.6500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 15.7000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.7500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.7500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<240>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 241 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.7500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.7500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<241>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 242 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.7500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.7500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<242>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 243 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.7500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.8000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 15.8500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.9000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 15.9000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<243>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 244 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.9000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.9000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<244>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 245 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.9000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 15.9000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<245>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 246 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 15.9000000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 15.9500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 16.0000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 16.0500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 16.0500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<246>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 247 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.0500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.0500000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<247>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 248 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.0500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.0500000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<248>) = True delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905 =========================================== SIMULATION STEP 249 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : 0.4905 time : 16.0500000000001 __ell010 : False __ell011 : False __ell012 : True __ell013 : False __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : 0 time : 16.1000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : 0.0152593750000041 velocity : -0.4905 time : 16.1500000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ ::::::::::::::::::::::::::::::::::::::::::: iteration step initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 16.2000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ The following release conditions are true: __asrt033 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : ⊥ position : -0.00926562499999595 velocity : -0.981 time : 16.2000000000001 __ell010 : ⊥ __ell011 : ⊥ __ell012 : ⊥ __ell013 : ⊥ __lvar028 : True __lvar029 : False __lvar030 : False __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : True __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : True delayed assignments of driver are: next(__ell014<249>) = True delayed assignments of aif system: next(__ell011) = True =========================================== SIMULATION STEP 250 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 der(position) <- cont(velocity) der(velocity) <- -9.810000e+000 taking care of the following conditions: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.2000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt029 : release cont(velocity)<0.000000e+000&cont(position)<=0.000000e+000 --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.2000000000001 __ell010 : False __ell011 : True __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : True __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: next(__ell014<250>) = True delayed assignments of aif system: next(__ell010) = True =========================================== SIMULATION STEP 251 =========================================== continuous transition with following system of ODEs: der(time) <- 1.000000e+000 taking care of the following conditions: __asrt032 : release True iterating explicit Euler method using steps of size 0.05 starting with the following discrete environment: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.2000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False The following release conditions are true: __asrt032 : release True --> continuous transition ends here ::::::::::::::::::::::::::::::::::::::::::: initialPosition : 0 position : -0.00926562499999595 velocity : -0.981 time : 16.2000000000001 __ell010 : True __ell011 : False __ell012 : False __ell013 : False __lvar028 : False __lvar029 : True __lvar030 : True __lvar031 : False __lvar032 : False __lvar033 : False __lvar034 : False __lvar035 : False __lvar036 : True __lvar037 : True __lvar038 : False __lvar039 : True __lvar040 : False __lvar041 : False delayed assignments of driver are: delayed assignments of aif system: next(__ell012) = True next(velocity) = 0.4905