Inference in Hidden Markov Models with Explicit State Duration Distributions

Author

Dewar, Michael ; Wiggins, Chris ; Wood, Frank

Author_Institution

Bitly, Inc., New York, NY, USA

Volume

19

Issue

4

fYear

2012

fDate

4/1/2012 12:00:00 AM

Firstpage

235

Lastpage

238

Abstract

In this letter, we borrow from the inference techniques developed for unbounded state-cardinality (nonparametric) variants of the HMM and use them to develop a tuning-parameter free, black-box inference procedure for explicit-state-duration hidden Markov models (EDHMM). EDHMMs are HMMs that have latent states consisting of both discrete state-indicator and discrete state-duration random variables. In contrast to the implicit geometric state duration distribution possessed by the standard HMM, EDHMMs allow the direct parameterization and estimation of per-state duration distributions. As most duration distributions are defined over the positive integers, truncation or other approximations are usually required to perform EDHMM inference.

Keywords

Markov processes; inference mechanisms; black-box inference procedure; discrete state-duration random variables; discrete state-indicator variable; explicit state duration distributions; explicit-state-duration hidden Markov models; implicit geometric state duration distribution; inference techniques; per-state duration distributions; tuning-parameter free; Bayesian methods; Computational complexity; Estimation; Hidden Markov models; Inference algorithms; Materials; Random variables; Bayesian explicit duration hidden Markov model; Bayesian hidden semi-Markov model; Monte Carlo methods; forward-backward algorithm; slice sampling;

fLanguage

English

Journal_Title

Signal Processing Letters, IEEE

Publisher

ieee

ISSN

1070-9908

Type

jour

DOI

10.1109/LSP.2012.2184795

Filename

6133326