00001
00013 #ifndef KF_H
00014 #define KF_H
00015
00016 #include <itpp/itbase.h>
00017 #include "../stat/libFN.h"
00018 #include "../stat/libEF.h"
00019 #include "../math/chmat.h"
00020
00021 using namespace itpp;
00022
00027 class KalmanFull {
00028 protected:
00029 int dimx, dimy, dimu;
00030 mat A, B, C, D, R, Q;
00031
00032
00033 mat _Pp, _Ry, _iRy, _K;
00034 public:
00035
00037 vec mu;
00039 mat P;
00040
00041 bool evalll;
00042 double ll;
00043 public:
00045 KalmanFull ( mat A, mat B, mat C, mat D, mat R, mat Q, mat P0, vec mu0 );
00047 void bayes ( const vec &dt );
00049 friend std::ostream &operator<< ( std::ostream &os, const KalmanFull &kf );
00051 KalmanFull(){};
00052 };
00053
00054
00062 template<class sq_T>
00063
00064 class Kalman : public BM {
00065 protected:
00067 RV rvy;
00069 RV rvu;
00071 int dimx;
00073 int dimy;
00075 int dimu;
00077 mat A;
00079 mat B;
00081 mat C;
00083 mat D;
00085 sq_T Q;
00087 sq_T R;
00088
00090 enorm<sq_T> est;
00092 enorm<sq_T> fy;
00093
00095 mat _K;
00097 vec& _yp;
00099 sq_T& _Ry;
00101 vec& _mu;
00103 sq_T& _P;
00104
00105 public:
00107 Kalman ( RV rvx0, RV rvy0, RV rvu0 );
00109 Kalman ( const Kalman<sq_T> &K0 );
00111 void set_parameters ( const mat &A0,const mat &B0,const mat &C0,const mat &D0,const sq_T &R0,const sq_T &Q0 );
00113 void set_est ( const vec &mu0, const sq_T &P0 ) {
00114 sq_T pom(dimy);
00115 est.set_parameters ( mu0,P0 );
00116 P0.mult_sym(C,pom);
00117 fy.set_parameters ( C*mu0, pom );
00118 };
00119
00121 void bayes ( const vec &dt );
00123 const epdf& _epdf() const {return est;}
00125 mat& __K() {return _K;}
00127 vec _dP() {return _P->getD();}
00128 };
00129
00132 class KalmanCh : public Kalman<chmat>{
00133 protected:
00135 mat preA;
00137 mat postA;
00138
00139 public:
00141 KalmanCh ( RV rvx0, RV rvy0, RV rvu0 ):Kalman<chmat>(rvx0,rvy0,rvu0),preA(dimy+dimx+dimx,dimy+dimx),postA(dimy+dimx,dimy+dimx){};
00143 void set_parameters ( const mat &A0,const mat &B0,const mat &C0,const mat &D0,const chmat &R0,const chmat &Q0 );
00144 void set_est ( const vec &mu0, const chmat &P0 ) {
00145 est.set_parameters ( mu0,P0 );
00146 };
00147
00148
00162 void bayes ( const vec &dt );
00163 };
00164
00170 class EKFfull : public KalmanFull, public BM {
00171
00173 diffbifn* pfxu;
00175 diffbifn* phxu;
00176
00177 enorm<fsqmat> E;
00178 public:
00180 EKFfull ( RV rvx, RV rvy, RV rvu );
00182 void set_parameters ( diffbifn* pfxu, diffbifn* phxu, const mat Q0, const mat R0 );
00184 void bayes ( const vec &dt );
00186 void set_est (vec mu0, mat P0){mu=mu0;P=P0;};
00188 const epdf& _epdf()const{return E;};
00189 };
00190
00196 template<class sq_T>
00197 class EKF : public Kalman<fsqmat> {
00199 diffbifn* pfxu;
00201 diffbifn* phxu;
00202 public:
00204 EKF ( RV rvx, RV rvy, RV rvu );
00206 void set_parameters ( diffbifn* pfxu, diffbifn* phxu, const sq_T Q0, const sq_T R0 );
00208 void bayes ( const vec &dt );
00209 };
00210
00217 class EKFCh : public KalmanCh {
00219 diffbifn* pfxu;
00221 diffbifn* phxu;
00222 public:
00224 EKFCh ( RV rvx, RV rvy, RV rvu );
00226 void set_parameters ( diffbifn* pfxu, diffbifn* phxu, const chmat Q0, const chmat R0 );
00228 void bayes ( const vec &dt );
00229 };
00230
00235 class KFcondQR : public Kalman<ldmat>, public BMcond {
00236
00237 public:
00239 KFcondQR ( RV rvx, RV rvy, RV rvu, RV rvRQ ) : Kalman<ldmat> ( rvx, rvy,rvu ),BMcond ( rvRQ ) {};
00240
00241 void condition ( const vec &RQ );
00242 };
00243
00248 class KFcondR : public Kalman<ldmat>, public BMcond {
00249
00250 public:
00252 KFcondR ( RV rvx, RV rvy, RV rvu, RV rvR ) : Kalman<ldmat> ( rvx, rvy,rvu ),BMcond ( rvR ) {};
00253
00254 void condition ( const vec &R );
00255 };
00256
00258
00259 template<class sq_T>
00260 Kalman<sq_T>::Kalman ( const Kalman<sq_T> &K0 ) : BM ( K0.rv ),rvy ( K0.rvy ),rvu ( K0.rvu ),
00261 dimx ( rv.count() ), dimy ( rvy.count() ),dimu ( rvu.count() ),
00262 A ( dimx,dimx ), B ( dimx,dimu ), C ( dimy,dimx ), D ( dimy,dimu ),
00263 Q(dimx), R(dimy),
00264 est ( rv ), fy ( rvy ), _yp(fy._mu()),_Ry(fy._R()), _mu(est._mu()), _P(est._R()) {
00265
00266 this->set_parameters ( K0.A, K0.B, K0.C, K0.D, K0.R, K0.Q );
00267
00268
00269 _mu = K0._mu;
00270 _P = K0._P;
00271 _yp = K0._yp;
00272 _Ry = K0._Ry;
00273
00274 }
00275
00276 template<class sq_T>
00277 Kalman<sq_T>::Kalman ( RV rvx, RV rvy0, RV rvu0 ) : BM ( rvx ),rvy ( rvy0 ),rvu ( rvu0 ),
00278 dimx ( rvx.count() ), dimy ( rvy.count() ),dimu ( rvu.count() ),
00279 A ( dimx,dimx ), B ( dimx,dimu ), C ( dimy,dimx ), D ( dimy,dimu ),
00280 Q(dimx), R (dimy),
00281 est ( rvx ), fy ( rvy ), _yp(fy._mu()),_Ry(fy._R()),_mu(est._mu()), _P(est._R()) {
00282 };
00283
00284 template<class sq_T>
00285 void Kalman<sq_T>::set_parameters ( const mat &A0,const mat &B0, const mat &C0, const mat &D0, const sq_T &R0, const sq_T &Q0 ) {
00286 it_assert_debug ( A0.cols() ==dimx, "Kalman: A is not square" );
00287 it_assert_debug ( B0.rows() ==dimx, "Kalman: B is not compatible" );
00288 it_assert_debug ( C0.cols() ==dimx, "Kalman: C is not square" );
00289 it_assert_debug ( ( D0.rows() ==dimy ) || ( D0.cols() ==dimu ), "Kalman: D is not compatible" );
00290 it_assert_debug ( ( R0.cols() ==dimy ) || ( R0.rows() ==dimy ), "Kalman: R is not compatible" );
00291 it_assert_debug ( ( Q0.cols() ==dimx ) || ( Q0.rows() ==dimx ), "Kalman: Q is not compatible" );
00292
00293 A = A0;
00294 B = B0;
00295 C = C0;
00296 D = D0;
00297 R = R0;
00298 Q = Q0;
00299 }
00300
00301 template<class sq_T>
00302 void Kalman<sq_T>::bayes ( const vec &dt ) {
00303 it_assert_debug ( dt.length() == ( dimy+dimu ),"KalmanFull::bayes wrong size of dt" );
00304
00305 sq_T iRy(dimy);
00306 vec u = dt.get ( dimy,dimy+dimu-1 );
00307 vec y = dt.get ( 0,dimy-1 );
00308
00309 _mu = A* _mu + B*u;
00310
00311 _P.mult_sym ( A );
00312 _P +=Q;
00313
00314
00315
00316 _P.mult_sym ( C, _Ry );
00317 _Ry +=R;
00318
00319 mat Pfull = _P.to_mat();
00320
00321 _Ry.inv ( iRy );
00322 _K = Pfull*C.transpose() * ( iRy.to_mat() );
00323
00324 sq_T pom ( ( int ) Pfull.rows() );
00325 iRy.mult_sym_t ( C*Pfull,pom );
00326 (_P ) -= pom;
00327 (_yp ) = C* _mu +D*u;
00328 (_mu ) += _K* ( y- _yp );
00329
00330
00331 if ( evalll==true ) {
00332 ll=fy.evalpdflog ( y );
00333 }
00334
00335
00336
00337 };
00338
00339
00340
00341
00342
00343 template<class sq_T>
00344 EKF<sq_T>::EKF ( RV rvx0, RV rvy0, RV rvu0 ) : Kalman<sq_T> ( rvx0,rvy0,rvu0 ) {}
00345
00346 template<class sq_T>
00347 void EKF<sq_T>::set_parameters ( diffbifn* pfxu0, diffbifn* phxu0,const sq_T Q0,const sq_T R0 ) {
00348 pfxu = pfxu0;
00349 phxu = phxu0;
00350
00351
00352 pfxu->dfdx_cond ( _mu,zeros ( dimu ),A,true );
00353
00354 B.clear();
00355 phxu->dfdx_cond ( _mu,zeros ( dimu ),C,true );
00356
00357 D.clear();
00358
00359 R = R0;
00360 Q = Q0;
00361 }
00362
00363 template<class sq_T>
00364 void EKF<sq_T>::bayes ( const vec &dt ) {
00365 it_assert_debug ( dt.length() == ( dimy+dimu ),"KalmanFull::bayes wrong size of dt" );
00366
00367 sq_T iRy(dimy,dimy);
00368 vec u = dt.get ( dimy,dimy+dimu-1 );
00369 vec y = dt.get ( 0,dimy-1 );
00370
00371 _mu = pfxu->eval ( _mu, u );
00372 pfxu->dfdx_cond ( _mu,u,A,false );
00373
00374
00375 _P.mult_sym ( A );
00376 _P +=Q;
00377
00378
00379 phxu->dfdx_cond ( _mu,u,C,false );
00380
00381 _P.mult_sym ( C, _Ry );
00382 ( _Ry ) +=R;
00383
00384 mat Pfull = _P.to_mat();
00385
00386 _Ry.inv ( iRy );
00387 _K = Pfull*C.transpose() * ( iRy.to_mat() );
00388
00389 sq_T pom ( ( int ) Pfull.rows() );
00390 iRy.mult_sym_t ( C*Pfull,pom );
00391 (_P ) -= pom;
00392 _yp = phxu->eval ( _mu,u );
00393 ( _mu ) += _K* ( y-_yp );
00394
00395 if ( evalll==true ) {ll+=fy.evalpdflog ( y );}
00396 };
00397
00398
00399 #endif // KF_H
00400
00401