Sequential Monte Carlo smoothing for general state space Hidden Markov Models

Date: 
December, 2011
PageStart: 
2 109
PageEnd: 
2 145
Arxiv Number: 
1202.2945
Hal Number: 
00839311
Abstract: 
Computing smoothing distributions, the distributions of one or more states conditional on past, present, and future observations is a recurring problem when operating on general hidden Markov models. The aim of this paper is to provide a foundation of particle-based approximation of such distributions and to analyze, in a common unifying framework, different schemes producing such approximations. In this setting, general convergence results, including exponential deviation inequalities and central limit theorems, are established. In particular, time uniform bounds on the marginal smoothing error are obtained under appropriate mixing conditions on the transition kernel of the latent chain. In addition, we propose an algorithm approximating the joint smoothing distribution at a cost that grows only linearly with the number of particles.
Issue: 
6
Volume: 
21