Topic: Contributed on Bayesian computational methods Title: Markov interacting importance samplers Authors:  Eduardo Mendes - Fundacao Getulio Vargas (Brazil)
Marcel Scharth - University of Sydney (Australia) [presenting]
Robert Kohn - University of New South Wales (Australia)
Abstract: A new Markov chain Monte Carlo (MCMC) sampler called the Markov Interacting Importance Sampler (MIIS) is introduced. The MIIS sampler uses conditional importance sampling (IS) approximations to jointly sample the current state of the Markov Chain and estimate conditional expectations, possibly by incorporating a full range of variance reduction techniques. We compute Rao-Blackwellized estimates based on the conditional expectations to construct control variates for estimating expectations under the target distribution. The control variates are particularly efficient when there are substantial correlations between the variables in the target distribution, a challenging setting for MCMC. An important motivating application of MIIS occurs when the exact Gibbs sampler is not available because it is infeasible to directly simulate from the conditional distributions. In this case the MIIS method can be much more efficient than a Metropolis-within-Gibbs approach. We also introduce the MIIS random walk algorithm, designed to accelerate convergence and improve upon the computational efficiency of standard random walk samplers. Simulated and empirical illustrations for Bayesian analysis show that the method significantly reduces the variance of Monte Carlo estimates compared to standard MCMC approaches, at equivalent implementation and computational effort.