USING_NAMESPACE_ACADO int main( ) { // Define a Right-Hand-Side: // ------------------------- DifferentialState phi; // the angle phi DifferentialState dphi; // the first derivative of phi w.r.t time Control F; // a force acting on the pendulum Parameter l; // the length of the pendulum const double m = 1.0; // the mass of the pendulum const double g = 9.81; // the gravitational constant const double alpha = 2.0; // friction constant IntermediateState z; DifferentialEquation f; z = sin(phi); f << dot(phi ) == dphi; f << dot(dphi) == -(m*g/l)*z - alpha*dphi + F/(m*l); // DEFINE INITIAL VALUES: // ---------------------- DVector xStart( 2 ); xStart(0) = 1.0; xStart(1) = 0.0; DVector xa; DVector u( 1 ); u(0) = 0.0; DVector p( 1 ); p(0) = 1.0; double tStart = 0.0; double tEnd = 2.0; Grid timeHorizon( tStart,tEnd ); // DEFINE AN INTEGRATOR: // --------------------- IntegrationAlgorithm intAlg; intAlg.addStage( f, timeHorizon, INT_RK45 ); //intAlg.set( INTEGRATOR_TYPE, INT_RK45 ); intAlg.set( INTEGRATOR_PRINTLEVEL, HIGH ); intAlg.set( INTEGRATOR_TOLERANCE, 1.0e-6 ); // START THE INTEGRATION: // ---------------------- intAlg.integrate( timeHorizon, xStart,xa,p,u ); // GET THE RESULTS // --------------- VariablesGrid differentialStates; intAlg.getX( differentialStates ); cout << "x = " << endl << differentialStates << endl; return 0; }
/* >>> start tutorial code >>> */ int main( ){ USING_NAMESPACE_ACADO // Define a Right-Hand-Side: // ------------------------- DifferentialState x; DifferentialEquation f; TIME t; f << dot(x) == -x + sin(0.01*t); // Define an initial value: // ------------------------ Vector xStart( 1 ); xStart(0) = 1.0; double tStart = 0.0; double tEnd = 1000.0; Grid timeHorizon( tStart,tEnd,2 ); Grid timeGrid( tStart,tEnd,20 ); // Define an integration algorithm: // -------------------------------- IntegrationAlgorithm intAlg; intAlg.addStage( f, timeHorizon ); intAlg.set( INTEGRATOR_TYPE, INT_BDF ); intAlg.set( INTEGRATOR_PRINTLEVEL, MEDIUM ); intAlg.set( INTEGRATOR_TOLERANCE, 1.0e-3 ); intAlg.set( PRINT_INTEGRATOR_PROFILE, YES ); intAlg.set( PLOT_RESOLUTION, HIGH ); GnuplotWindow window; window.addSubplot( x,"x" ); intAlg << window; // START THE INTEGRATION // ---------------------- intAlg.integrate( timeHorizon, xStart ); // GET THE RESULTS // --------------- VariablesGrid differentialStates; intAlg.getX( differentialStates ); differentialStates.print( "x" ); Vector xEnd; intAlg.getX( xEnd ); xEnd.print( "xEnd" ); return 0; }