Markov Chain Monte Carlo Convergence Assessment via Two-Way Analysis of Variance |
| |
Authors: | S P Brooks P Giudici |
| |
Institution: | 1. Department of Mathematics and Statistics , University of Surrey , Guildford , Surrey , GU2 5XH , United Kingdom;2. Department of Economics and Quantitative Methods , University of Pavia , Italy |
| |
Abstract: | Abstract In this article we discuss the problem of assessing the performance of Markov chain Monte Carlo (MCMC) algorithms on the basis of simulation output. In essence, we extend the original ideas of Gelman and Rubin and, more recently, Brooks and Gelman, to problems where we are able to split the variation inherent within the MCMC simulation output into two distinct groups. We show how such a diagnostic may be useful in assessing the performance of MCMC samplers addressing model choice problems, such as the reversible jump MCMC algorithm. In the model choice context, we show how the reversible jump MCMC simulation output for parameters that retain a coherent interpretation throughout the simulation, can be used to assess convergence. By considering various decompositions of the sampling variance of this parameter, we can assess the performance of our MCMC sampler in terms of its mixing properties both within and between models and we illustrate our approach in both the graphical Gaussian models and normal mixtures context. Finally, we provide an example of the application of our diagnostic to the assessment of the influence of different starting values on MCMC simulation output, thereby illustrating the wider utility of our method beyond the Bayesian model choice and reversible jump MCMC context. |
| |
Keywords: | Bayesian inference Bayesian model choice Finite mixture models Graphical models Markov chain Monte Carlo Run-length determination |
|
|