Title :
Direct versus prediction-based Particle Filter algorithms
Author :
Desbouvries, François ; Ait-El-Fquih, Boujemaa
Author_Institution :
Dept. CITI, TELECOM & Manage. Sudparis, Evry
Abstract :
Particle filtering (PF) algorithms propagate in time a Monte Carlo (MC) approximation of the a posteriori filtering measure in a hidden Markov chain (HMC) model. In this paper we first shed some new light on two classical PF algorithms, which can be considered as natural MC implementations of two two-step direct recursive formulas for computing the filtering distribution. We next address the particle prediction (PP) problem, which happens to be simpler than the PF problem because the optimal prediction conditional importance distribution (CID) is much easier to sample from. Motivated by this result we finally develop two PP-based PF algorithms, and we compare our algorithms via simulations.
Keywords :
Monte Carlo methods; approximation theory; particle filtering (numerical methods); recursive filters; CID; Monte Carlo approximation; a posteriori filtering measure; hidden Markov chain model; optimal prediction conditional importance distribution; particle filter algorithms; particle prediction problem; two-step direct recursive filtering distribution; Approximation algorithms; Distributed computing; Filtering algorithms; Hidden Markov models; Monte Carlo methods; Optical propagation; Particle filters; Particle measurements; Prediction algorithms; Time measurement; Hidden Markov Chains; Optimal importance function; Particle Filtering; Sampling Importance Resampling; Sequential Importance Sampling;
Conference_Titel :
Machine Learning for Signal Processing, 2008. MLSP 2008. IEEE Workshop on
Conference_Location :
Cancun
Print_ISBN :
978-1-4244-2375-0
Electronic_ISBN :
1551-2541
DOI :
10.1109/MLSP.2008.4685497
