[258] | 1 | /*! |
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| 2 | \file |
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| 3 | \brief DataSource for experiments with realistic simulator of the PMSM model |
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| 4 | \author Vaclav Smidl. |
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| 5 | |
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| 6 | ----------------------------------- |
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| 7 | BDM++ - C++ library for Bayesian Decision Making under Uncertainty |
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| 8 | |
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| 9 | Using IT++ for numerical operations |
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| 10 | ----------------------------------- |
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| 11 | */ |
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| 12 | |
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| 13 | #include <stat/loggers.h> |
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[260] | 14 | #include "simulator.h" |
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[258] | 15 | #include "pmsm.h" |
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| 16 | |
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| 17 | //! Simulator of PMSM machine with predefined profile on omega |
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| 18 | class pmsmDS : public DS { |
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| 19 | |
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| 20 | protected: |
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| 21 | //! indeces of logged variables |
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[260] | 22 | int L_x, L_ou, L_oy, L_iu, L_optu; |
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[258] | 23 | //! Setpoints of omega in timespans given by dt_prof |
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| 24 | vec profileWw; |
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| 25 | //! time-step for profiles |
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| 26 | double dt_prof; |
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| 27 | //! Number of miliseconds per discrete time step |
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| 28 | int Dt; |
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[280] | 29 | //! options for logging, - log predictions of 'true' voltage |
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| 30 | bool opt_modu; |
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[258] | 31 | public: |
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[260] | 32 | //! Constructor with fixed sampling period |
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[280] | 33 | pmsmDS () {Dt=125; Drv=RV ( "{o_ua o_ub o_ia o_ib t_ua t_ub }" );} |
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[258] | 34 | void set_parameters ( double Rs0, double Ls0, double Fmag0, double Bf0, double p0, double kp0, double J0, double Uc0, double DT0, double dt0 ) { |
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| 35 | pmsmsim_set_parameters ( Rs0, Ls0, Fmag0, Bf0, p0, kp0, J0, Uc0, DT0, dt0 ); |
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| 36 | } |
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[280] | 37 | //! parse options: "modelu" => opt_modu=true; |
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| 38 | void set_options ( string &opt ) { |
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| 39 | opt_modu = ( opt.find ( "modelu" ) ==string::npos ); |
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| 40 | } |
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[258] | 41 | void getdata ( vec &dt ) {dt=vec ( KalmanObs,6 );} |
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| 42 | void write ( vec &ut ) {} |
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| 43 | |
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| 44 | void step() { |
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| 45 | static int ind=0; |
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| 46 | static double dW; // increase of W |
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| 47 | static double Ww; // W |
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| 48 | if ( t>=dt_prof*ind ) { |
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[260] | 49 | ind++; |
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[258] | 50 | if ( ind<profileWw.length() ) { |
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| 51 | //linear increase |
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[260] | 52 | if ( profileWw.length() ==1 ) { |
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[280] | 53 | Ww=profileWw ( 0 ); dW=0.0; |
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| 54 | } |
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[260] | 55 | else { |
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| 56 | dW = profileWw ( ind )-profileWw ( ind-1 ); |
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| 57 | dW *=125e-6/dt_prof; |
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| 58 | } |
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[258] | 59 | } |
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| 60 | else { |
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| 61 | dW = 0; |
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| 62 | } |
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| 63 | } |
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| 64 | Ww += dW; |
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| 65 | //Simulate Dt seconds! |
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| 66 | for ( int i=0;i<Dt;i++ ) { pmsmsim_step ( Ww );} |
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| 67 | }; |
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| 68 | |
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| 69 | void log_add ( logger &L ) { |
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| 70 | L_x = L.add ( rx, "x" ); |
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[280] | 71 | L_oy = L.add ( ry, "o" ); |
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| 72 | L_ou = L.add ( ru, "o" ); |
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| 73 | L_iu = L.add ( ru, "t" ); |
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[260] | 74 | // log differences |
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[280] | 75 | if ( opt_modu ) { |
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| 76 | L_optu = L.add ( ru, "model" ); |
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[260] | 77 | } |
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[258] | 78 | } |
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| 79 | |
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| 80 | void logit ( logger &L ) { |
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| 81 | L.logit ( L_x, vec ( x,4 ) ); |
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| 82 | L.logit ( L_oy, vec_2 ( KalmanObs[2],KalmanObs[3] ) ); |
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| 83 | L.logit ( L_ou, vec_2 ( KalmanObs[0],KalmanObs[1] ) ); |
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| 84 | L.logit ( L_iu, vec_2 ( KalmanObs[4],KalmanObs[5] ) ); |
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[280] | 85 | if ( opt_modu ) { |
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| 86 | double sq3=sqrt ( 3.0 ); |
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[260] | 87 | double ua,ub; |
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| 88 | double i1=x[0]; |
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[280] | 89 | double i2=0.5* ( -i1+sq3*x[1] ); |
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| 90 | double i3=0.5* ( -i1-sq3*x[1] ); |
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[260] | 91 | double u1=KalmanObs[0]; |
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[280] | 92 | double u2=0.5* ( -u1+sq3*KalmanObs[1] ); |
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| 93 | double u3=0.5* ( -u1-sq3*KalmanObs[1] ); |
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| 94 | |
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| 95 | double du1=0.7* ( double ( i1>0.1 ) - double ( i1<-0.1 ) ) +0.05*i1; |
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| 96 | double du2=0.7* ( double ( i2>0.1 ) - double ( i2<-0.1 ) ) +0.05*i2; |
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| 97 | double du3=0.7* ( double ( i3>0.1 ) - double ( i3<-0.1 ) ) +0.05*i3; |
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| 98 | ua = ( 2.0* ( u1-du1 )- ( u2-du2 )- ( u3-du3 ) ) /3.0; |
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| 99 | ub = ( ( u2-du2 )- ( u3-du3 ) ) /sq3; |
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| 100 | L.logit ( L_optu , vec_2 ( ua,ub ) ); |
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[260] | 101 | } |
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[280] | 102 | } |
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[258] | 103 | |
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| 104 | void set_profile ( double dt, const vec &Ww ) {dt_prof=dt; profileWw=Ww;} |
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| 105 | }; |
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