Geometric Ergodicity of Gibbs and Block Gibbs Samplers for a Hierarchical Random Effects Model

James P. Hobert; Charles J. Geyer

doi:10.1006/jmva.1998.1778

Geometric Ergodicity of Gibbs and Block Gibbs Samplers for a Hierarchical Random Effects Model

James P. Hobert, Charles J. Geyer

Statistics (Twin Cities)

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

We consider fixed scan Gibbs and block Gibbs samplers for a Bayesian hierarchical random effects model with proper conjugate priors. A drift condition given in Meyn and Tweedie (1993, Chapter 15) is used to show that these Markov chains are geometrically ergodic. Showing that a Gibbs sampler is geometrically ergodic is the first step toward establishing central limit theorems, which can be used to approximate the error associated with Monte Carlo estimates of posterior quantities of interest. Thus, our results will be of practical interest to researchers using these Gibbs samplers for Bayesian data analysis.

Original language	English (US)
Pages (from-to)	414-430
Number of pages	17
Journal	Journal of Multivariate Analysis
Volume	67
Issue number	2
DOIs	https://doi.org/10.1006/jmva.1998.1778
State	Published - Nov 1998

Keywords

Bayesian model, central limit theorem; drift condition; Markov chain; Monte Carlo; rate of convergence; variance components

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AB - We consider fixed scan Gibbs and block Gibbs samplers for a Bayesian hierarchical random effects model with proper conjugate priors. A drift condition given in Meyn and Tweedie (1993, Chapter 15) is used to show that these Markov chains are geometrically ergodic. Showing that a Gibbs sampler is geometrically ergodic is the first step toward establishing central limit theorems, which can be used to approximate the error associated with Monte Carlo estimates of posterior quantities of interest. Thus, our results will be of practical interest to researchers using these Gibbs samplers for Bayesian data analysis.

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Geometric Ergodicity of Gibbs and Block Gibbs Samplers for a Hierarchical Random Effects Model

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