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particles.h @ 638

Revision 638, 10.5 kB (checked in by smidl, 15 years ago)
redesign of PF and MPF to be more flexible and share more code
Property svn:eol-style set to `native`

Rev	Line
[8]	1	/*!
	2	\file
	3	\brief Bayesian Filtering using stochastic sampling (Particle Filters)
	4	\author Vaclav Smidl.
	5
	6	-----------------------------------
	7	BDM++ - C++ library for Bayesian Decision Making under Uncertainty
	8
	9	Using IT++ for numerical operations
	10	-----------------------------------
	11	*/
	12
[384]	13	#ifndef PARTICLES_H
	14	#define PARTICLES_H
[8]	15
[262]	16
[384]	17	#include "../stat/exp_family.h"
[8]	18
[270]	19	namespace bdm {
[8]	20
	21	/*!
[32]	22	* \brief Trivial particle filter with proposal density equal to parameter evolution model.
[8]	23
[32]	24	Posterior density is represented by a weighted empirical density (\c eEmp ).
[8]	25	*/
[32]	26
	27	class PF : public BM {
[8]	28	protected:
[32]	29	//!number of particles;
	30	int n;
	31	//!posterior density
	32	eEmp est;
	33	//! pointer into \c eEmp
	34	vec &_w;
	35	//! pointer into \c eEmp
	36	Array<vec> &_samples;
	37	//! Parameter evolution model
[638]	38	shared_ptr<mpdf> par;
[32]	39	//! Observation model
[638]	40	shared_ptr<mpdf> obs;
	41	//! internal structure storing loglikelihood of predictions
	42	vec lls;
	43
[283]	44	//! which resampling method will be used
	45	RESAMPLING_METHOD resmethod;
[638]	46	//! resampling threshold; in this case its meaning is minimum ratio of active particles
	47	//! For example, for 0.5 resampling is performed when the numebr of active aprticles drops belo 50%.
	48	double res_threshold;
	49
[281]	50	//! \name Options
	51	//!@{
	52
	53	//! Log all samples
	54	bool opt_L_smp;
[283]	55	//! Log all samples
	56	bool opt_L_wei;
[281]	57	//!@}
	58
[8]	59	public:
[270]	60	//! \name Constructors
	61	//!@{
[477]	62	PF ( ) : est(), _w ( est._w() ), _samples ( est._samples() ), opt_L_smp ( false ), opt_L_wei ( false ) {
	63	LIDs.set_size ( 5 );
	64	};
[638]	65
	66	void set_parameters (int n0, double res_th0=0.5, RESAMPLING_METHOD rm = SYSTEMATIC ) {
[477]	67	n = n0;
[638]	68	res_threshold = res_th0;
[477]	69	resmethod = rm;
	70	};
[638]	71	void set_model ( shared_ptr<mpdf> par0, shared_ptr<mpdf> obs0) {
	72	par = par0;
	73	obs = obs0;
	74	// set values for posterior
	75	est.set_rv(par->_rv());
	76	};
[488]	77	void set_statistics ( const vec w0, const epdf &epdf0 ) {
[477]	78	est.set_statistics ( w0, epdf0 );
	79	};
[638]	80	void set_statistics ( const eEmp &epdf0 ) {
	81	bdm_assert_debug(epdf0._rv().equal(par->_rv()),"Incompatibel input");
	82	est=epdf0;
	83	};
[270]	84	//!@}
[33]	85	//! Set posterior density by sampling from epdf0
[638]	86	//! Extends original BM::set_options by two more options:
	87	//! \li logweights - meaning that all weightes will be logged
	88	//! \li logsamples - all samples will be also logged
[283]	89	void set_options ( const string &opt ) {
[477]	90	BM::set_options ( opt );
	91	opt_L_wei = ( opt.find ( "logweights" ) != string::npos );
	92	opt_L_smp = ( opt.find ( "logsamples" ) != string::npos );
[281]	93	}
[638]	94	//! bayes I - generate samples and add their weights to lls
	95	virtual void bayes_gensmp();
	96	//! bayes II - compute weights of the
	97	virtual void bayes_weights();
	98	//! important part of particle filtering - decide if it is time to perform resampling
	99	virtual bool do_resampling(){
	100	double eff = 1.0 / ( _w * _w );
	101	return eff < ( res_threshold*n );
	102	}
[32]	103	void bayes ( const vec &dt );
[225]	104	//!access function
[638]	105	vec& __w() { return _w; }
	106	//!access function
	107	vec& _lls() { return lls; }
	108	RESAMPLING_METHOD _resmethod() const { return resmethod; }
	109	//!access function
	110	const eEmp& posterior() const {return est;}
	111
	112	/*! configuration structure for basic PF
	113	\code
	114	parameter_pdf = mpdf_class; // parameter evolution pdf
	115	observation_pdf = mpdf_class; // observation pdf
	116	prior = epdf_class; // prior probability density
	117	--- optional ---
	118	n = 10; // number of particles
	119	resmethod = 'systematic', or 'multinomial', or 'stratified'
	120	// resampling method
	121	res_threshold = 0.5; // resample when active particles drop below 50%
	122	\endcode
	123	*/
	124	void from_setting(const Setting &set){
	125	par = UI::build<mpdf>(set,"parameter_pdf",UI::compulsory);
	126	obs = UI::build<mpdf>(set,"observation_pdf",UI::compulsory);
	127
	128	prior_from_set(set);
	129	resmethod_from_set(set);
	130	// set resampling method
	131	//set drv
	132	//find potential input - what remains in rvc when we subtract rv
	133	RV u = par->_rvc().remove_time().subt( par->_rv() );
	134	//find potential input - what remains in rvc when we subtract x_t
	135	RV obs_u = obs->_rvc().remove_time().subt( par->_rv() );
	136
	137	u.add(obs_u); // join both u, and check if they do not overlap
	138
	139	set_drv(concat(obs->_rv(),u) );
[477]	140	}
[638]	141	//! auxiliary function reading parameter 'resmethod' from configuration file
	142	void resmethod_from_set(const Setting &set){
	143	string resmeth;
	144	if (UI::get(resmeth,set,"resmethod",UI::optional)){
	145	if (resmeth=="systematic") {
	146	resmethod= SYSTEMATIC;
	147	} else {
	148	if (resmeth=="multinomial"){
	149	resmethod=MULTINOMIAL;
	150	} else {
	151	if (resmeth=="stratified"){
	152	resmethod= STRATIFIED;
	153	} else {
	154	bdm_error("Unknown resampling method");
	155	}
	156	}
	157	}
	158	} else {
	159	resmethod=SYSTEMATIC;
	160	};
	161	if(!UI::get(res_threshold, set, "res_threshold", UI::optional)){
	162	res_threshold=0.5;
	163	}
	164	}
	165	//! load prior information from set and set internal structures accordingly
	166	void prior_from_set(const Setting & set){
	167	shared_ptr<epdf> pri = UI::build<epdf>(set,"prior",UI::compulsory);
	168
	169	eEmp test_emp=dynamic_cast<eEmp>(&(*pri));
	170	if (test_emp) { // given pdf is sampled
	171	est=*test_emp;
	172	} else {
	173	int n;
	174	if (!UI::get(n,set,"n",UI::optional)){n=10;}
	175	// sample from prior
	176	set_statistics(ones(n)/n, *pri);
	177	}
	178	//validate();
	179	}
	180
	181	void validate(){
	182	n=_w.length();
	183	lls=zeros(n);
	184	if (par->_rv()._dsize()>0) {
	185	bdm_assert(par->_rv()._dsize()==est.dimension(),"Mismatch of RV and dimension of posterior" );
	186	}
	187	}
	188	//! resample posterior density (from outside - see MPF)
	189	void resample(ivec &ind){
	190	est.resample(ind,resmethod);
	191	}
[8]	192	};
[638]	193	UIREGISTER(PF);
[8]	194
	195	/*!
[32]	196	\brief Marginalized Particle filter
[8]	197
[638]	198	A composition of particle filter with exact (or almost exact) bayesian models (BMs).
	199	The Bayesian models provide marginalized predictive density. Internaly this is achieved by virtual class MPFmpdf.
[8]	200	*/
	201
[638]	202	class MPF : public BM {
	203	shared_ptr<PF> pf;
	204	Array<BM*> BMs;
[32]	205
	206	//! internal class for MPDF providing composition of eEmp with external components
	207
[477]	208	class mpfepdf : public epdf {
[638]	209	shared_ptr<PF> &pf;
	210	Array<BM*> &BMs;
[8]	211	public:
[638]	212	mpfepdf (shared_ptr<PF> &pf0, Array<BM*> &BMs0): epdf(), pf(pf0), BMs(BMs0) { };
	213	//! a variant of set parameters - this time, parameters are read from BMs and pf
	214	void read_parameters(){
	215	rv = concat(pf->posterior()._rv(), BMs(0)->posterior()._rv());
	216	dim = pf->posterior().dimension() + BMs(0)->posterior().dimension();
	217	bdm_assert_debug(dim == rv._dsize(), "Wrong name ");
[283]	218	}
[32]	219	vec mean() const {
[638]	220	const vec &w = pf->posterior()._w();
	221	vec pom = zeros ( BMs(0)->posterior ().dimension() );
	222	//compute mean of BMs
	223	for ( int i = 0; i < w.length(); i++ ) {
	224	pom += BMs ( i )->posterior().mean() * w ( i );
[477]	225	}
[638]	226	return concat ( pf->posterior().mean(), pom );
[32]	227	}
[229]	228	vec variance() const {
[638]	229	const vec &w = pf->posterior()._w();
	230
	231	vec pom = zeros ( BMs(0)->posterior ().dimension() );
	232	vec pom2 = zeros ( BMs(0)->posterior ().dimension() );
	233	vec mea;
	234
	235	for ( int i = 0; i < w.length(); i++ ) {
	236	// save current mean
	237	mea = BMs ( i )->posterior().mean();
	238	pom += mea * w ( i );
	239	//compute variance
	240	pom2 += ( BMs ( i )->posterior().variance() + pow ( mea, 2 ) ) * w ( i );
[270]	241	}
[638]	242	return concat ( pf->posterior().variance(), pom2 - pow ( pom, 2 ) );
[229]	243	}
[638]	244
[477]	245	void qbounds ( vec &lb, vec &ub, double perc = 0.95 ) const {
[283]	246	//bounds on particles
	247	vec lbp;
	248	vec ubp;
[638]	249	pf->posterior().qbounds ( lbp, ubp );
[32]	250
[283]	251	//bounds on Components
[638]	252	int dimC = BMs ( 0 )->posterior().dimension();
[283]	253	int j;
	254	// temporary
[477]	255	vec lbc ( dimC );
	256	vec ubc ( dimC );
[283]	257	// minima and maxima
[477]	258	vec Lbc ( dimC );
	259	vec Ubc ( dimC );
[283]	260	Lbc = std::numeric_limits<double>::infinity();
	261	Ubc = -std::numeric_limits<double>::infinity();
	262
[638]	263	for ( int i = 0; i < BMs.length(); i++ ) {
[283]	264	// check Coms
[638]	265	BMs ( i )->posterior().qbounds ( lbc, ubc );
	266	//save either minima or maxima
[477]	267	for ( j = 0; j < dimC; j++ ) {
	268	if ( lbc ( j ) < Lbc ( j ) ) {
	269	Lbc ( j ) = lbc ( j );
	270	}
	271	if ( ubc ( j ) > Ubc ( j ) ) {
	272	Ubc ( j ) = ubc ( j );
	273	}
[283]	274	}
	275	}
[477]	276	lb = concat ( lbp, Lbc );
	277	ub = concat ( ubp, Ubc );
[283]	278	}
	279
[477]	280	vec sample() const {
[565]	281	bdm_error ( "Not implemented" );
	282	return vec();
[477]	283	}
[32]	284
[477]	285	double evallog ( const vec &val ) const {
[565]	286	bdm_error ( "not implemented" );
[477]	287	return 0.0;
	288	}
[32]	289	};
	290
[281]	291	//! Density joining PF.est with conditional parts
[32]	292	mpfepdf jest;
	293
[281]	294	//! Log means of BMs
	295	bool opt_L_mea;
[283]	296
[32]	297	public:
	298	//! Default constructor.
[638]	299	MPF () : jest (pf,BMs) {};
	300	void set_parameters ( shared_ptr<mpdf> par0, shared_ptr<mpdf> obs0, int n0, RESAMPLING_METHOD rm = SYSTEMATIC ) {
	301	pf->set_model ( par0, obs0);
	302	pf->set_parameters(n0, rm );
[283]	303	BMs.set_length ( n0 );
	304	}
[638]	305	void set_BM ( const BM &BMcond0 ) {
[32]	306
[638]	307	int n=pf->__w().length();
	308	BMs.set_length(n);
[283]	309	// copy
[638]	310	//BMcond0 .condition ( pf->posterior()._sample ( 0 ) );
[477]	311	for ( int i = 0; i < n; i++ ) {
[638]	312	BMs ( i ) = BMcond0._copy_();
	313	BMs ( i )->condition ( pf->posterior()._sample ( i ) );
[477]	314	}
[32]	315	};
	316
	317	void bayes ( const vec &dt );
[477]	318	const epdf& posterior() const {
	319	return jest;
	320	}
[638]	321	//! Extends options understood by BM::set_options by option
	322	//! \li logmeans - meaning
[283]	323	void set_options ( const string &opt ) {
[638]	324	BM::set_options(opt);
[477]	325	opt_L_mea = ( opt.find ( "logmeans" ) != string::npos );
[32]	326	}
[283]	327
[225]	328	//!Access function
[536]	329	const BM* _BM ( int i ) {
[477]	330	return BMs ( i );
	331	}
[638]	332
	333	/*! configuration structure for basic PF
	334	\code
	335	BM = BM_class; // Bayesian filtr for analytical part of the model
	336	parameter_pdf = mpdf_class; // transitional pdf for non-parametric part of the model
	337	prior = epdf_class; // prior probability density
	338	--- optional ---
	339	n = 10; // number of particles
	340	resmethod = 'systematic', or 'multinomial', or 'stratified'
	341	// resampling method
	342	\endcode
	343	*/
	344	void from_setting(const Setting &set){
	345	shared_ptr<mpdf> par = UI::build<mpdf>(set,"parameter_pdf",UI::compulsory);
	346	shared_ptr<mpdf> obs= new mpdf(); // not used!!
[8]	347
[638]	348	pf = new PF;
	349	// rpior must be set before BM
	350	pf->prior_from_set(set);
	351	pf->resmethod_from_set(set);
	352	pf->set_model(par,obs);
	353
	354	shared_ptr<BM> BM0 =UI::build<BM>(set,"BM",UI::compulsory);
	355	set_BM(*BM0);
	356
	357	string opt;
	358	if (UI::get(opt,set,"options",UI::optional)){
	359	set_options(opt);
	360	}
	361	//set drv
	362	//find potential input - what remains in rvc when we subtract rv
	363	RV u = par->_rvc().remove_time().subt( par->_rv() );
	364	set_drv(concat(BM0->_drv(),u) );
	365	validate();
[32]	366	}
[638]	367	void validate(){
	368	try{
	369	pf->validate();
	370	} catch (std::exception &e){
	371	throw UIException("Error in PF part of MPF:");
	372	}
	373	jest.read_parameters();
[32]	374	}
[638]	375
	376	};
	377	UIREGISTER(MPF);
[32]	378
	379	}
[8]	380	#endif // KF_H
	381

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