1 | /*! |
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2 | \file |
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3 | \brief TR 2525 file for testing Toy Problem of mpf for Covariance Estimation |
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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 | |
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14 | |
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15 | #include <estim/particles.h> |
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16 | #include <estim/ekf_template.h> |
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17 | #include <stat/functions.h> |
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18 | |
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19 | #include "../pmsm.h" |
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20 | #include "simulator.h" |
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21 | #include "../sim_profiles.h" |
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22 | #include "user_info.h" |
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23 | #include "stat/loggers.h" |
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24 | |
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25 | using namespace bdm; |
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26 | |
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27 | int main ( int argc, char* argv[] ) { |
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28 | const char *fname; |
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29 | if ( argc>1 ) {fname = argv[1]; } |
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30 | else { fname = "unitsteps.cfg"; } |
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31 | UIFile F ( fname ); |
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32 | |
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33 | double h = 1e-6; |
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34 | int Ndat; |
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35 | int Npart; |
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36 | F.lookupValue ( "ndat", Ndat ); |
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37 | F.lookupValue ( "Npart",Npart ); |
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38 | int Nsimstep = 125; |
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39 | |
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40 | // Kalman filter |
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41 | vec Qdiag; |
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42 | UI::get( Qdiag, F, "dQ" ); //( "1e-6 1e-6 0.001 0.0001" ); //zdenek: 0.01 0.01 0.0001 0.0001 |
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43 | |
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44 | vec Rdiag; |
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45 | UI::get( Rdiag, F, "dR" );// ( "1e-8 1e-8" ); //var(diff(xth)) = "0.034 0.034" |
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46 | |
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47 | // internal model |
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48 | IMpmsm fxu; |
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49 | // Rs Ls dt Fmag(Ypm) kp p J Bf(Mz) |
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50 | fxu.set_parameters ( 0.28, 0.003465, Nsimstep*h, 0.1989, 1.5 ,4.0, 0.04, 0.0 ); |
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51 | // observation model |
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52 | OMpmsm hxu; |
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53 | |
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54 | vec mu0= "0.0 0.0 0.0 0.0"; |
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55 | chmat Q ( Qdiag ); |
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56 | chmat R ( Rdiag ); |
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57 | EKFCh KFE ; |
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58 | KFE.set_parameters ( &fxu,&hxu,Q,R ); |
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59 | KFE.set_est ( mu0, chmat ( zeros ( 4 ) ) ); |
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60 | KFE.set_rv ( rx ); |
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61 | |
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62 | RV rQ ( "{Q }","16" ); |
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63 | EKFCh_chQ KFEp ; |
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64 | KFEp.set_parameters ( &fxu,&hxu,Q,R ); |
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65 | KFEp.set_est ( mu0, chmat ( zeros ( 4 ) ) ); |
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66 | |
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67 | rwiWishartCh* evolQw = new rwiWishartCh; |
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68 | evolQw->set_parameters(4, 0.1, sqrt(Qdiag),0.99); |
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69 | MPF<EKFCh_chQ> M; |
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70 | M.set_parameters ( evolQw,evolQw,Npart ); |
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71 | // initialize |
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72 | chmat Ch0(diag(Qdiag)); |
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73 | evolQw->condition ( vec(Ch0._Ch()._data(),16) ); //Zdenek default |
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74 | M.set_statistics ( evolQw->_e() , &KFEp ); |
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75 | // |
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76 | |
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77 | M.set_rv ( concat ( rQ,rx ) ); |
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78 | |
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79 | dirfilelog *L = UI::build<dirfilelog> ( F, "logger" );// ( "exp/mpf_test",100 ); |
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80 | int l_X = L->add ( rx, "xt" ); |
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81 | int l_D = L->add ( concat ( ry,ru ), "" ); |
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82 | int l_Q= L->add ( rQ, "" ); |
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83 | int l_fullQ= L->add ( rQ, "full" ); |
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84 | |
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85 | KFE.log_level[logbounds] = true; |
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86 | KFE.log_add ( *L,"KF" ); |
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87 | M.log_level[logbounds]= true; |
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88 | M.log_add ( *L,"M" ); |
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89 | L->init(); |
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90 | |
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91 | // SET SIMULATOR |
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92 | pmsmsim_set_parameters ( 0.28,0.003465,0.1989,0.0,4,1.5,0.04, 200., 3e-6, h ); |
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93 | vec dt ( 2 ); |
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94 | vec ut ( 2 ); |
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95 | vec xt ( 4 ); |
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96 | vec xtm=zeros ( 4 ); |
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97 | double Ww=0.0; |
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98 | vec vecW; |
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99 | UI::get( vecW, F ,"profile" ); |
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100 | |
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101 | mat tQ=diag(Qdiag); |
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102 | mat tChQ=chol(tQ); |
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103 | |
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104 | for ( int tK=1;tK<Ndat;tK++ ) { |
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105 | //Number of steps of a simulator for one step of Kalman |
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106 | for ( int ii=0; ii<Nsimstep;ii++ ) { |
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107 | //simulator |
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108 | sim_profile_vec01t ( Ww,vecW ); |
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109 | pmsmsim_step ( Ww ); |
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110 | }; |
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111 | ut ( 0 ) = KalmanObs[4]; |
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112 | ut ( 1 ) = KalmanObs[5]; |
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113 | xt = fxu.eval ( xtm,ut ) + tChQ.T() *randn ( 4 ); |
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114 | dt = hxu.eval ( xt,ut ); |
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115 | xtm = xt; |
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116 | |
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117 | //Variances |
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118 | /* if ( tK==1000 ) tQ ( 0,0 ) *=10; |
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119 | if ( tK==2000 ) tQ ( 0,0 ) /=10; |
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120 | if ( tK==3000 ) tQ( 1,1 ) *=10; |
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121 | if ( tK==4000 ) tQ( 1,1 ) /=10; |
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122 | if ( tK==5000 ) tQ( 2,2 ) *=10; |
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123 | if ( tK==6000 ) tQ( 2,2 ) /=10; |
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124 | if ( tK==7000 ) tQ( 3,3 ) *=10; |
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125 | if ( tK==8000 ) tQ( 3,3 ) /=10;*/ |
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126 | |
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127 | if (tK>1000) {tQ(0,1)=0.5*sqrt(tQ(0,0)*tQ(1,1));tQ(1,0)=tQ(0,1);} |
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128 | if (tK>2000) {tQ(0,1)=0; tQ(1,0)=tQ(0,1);} |
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129 | |
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130 | if (tK>3000) {tQ(2,3)=-0.5*sqrt(tQ(2,2)*tQ(3,3)); tQ(3,2)=tQ(2,3);} |
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131 | if (tK>4000) {tQ(2,3)=0; tQ(3,2)=tQ(2,3);} |
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132 | |
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133 | if (tK>5000) {tQ(0,2)=0.9*sqrt(tQ(0,0)*tQ(2,2)); tQ(2,0)=tQ(0,2);} |
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134 | if (tK>6000) {tQ(0,2)=0; tQ(2,0)=tQ(0,2);} |
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135 | |
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136 | tChQ=chol(tQ); |
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137 | |
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138 | //estimator |
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139 | KFE.bayes ( concat ( dt,ut ) ); |
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140 | M.bayes ( concat ( dt,ut ) ); |
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141 | |
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142 | L->logit ( l_X,xt ); |
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143 | L->logit ( l_D,concat ( dt,ut ) ); |
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144 | mat Q=diag(Qdiag); |
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145 | L->logit ( l_Q,vec(tQ._data(),16) ); |
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146 | |
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147 | mat chQ(4,4); |
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148 | copy_vector(16,M._e()->mean()._data(),chQ._data()); |
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149 | mat fQ=chQ.T()*chQ; |
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150 | L->logit ( l_fullQ,vec(fQ._data(),16) ); |
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151 | |
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152 | KFE.logit ( *L ); |
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153 | M.logit ( *L ); |
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154 | L->step(); |
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155 | } |
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156 | L->finalize(); |
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157 | //Exit program: |
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158 | |
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159 | delete L; |
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160 | return 0; |
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161 | } |
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