Statistics – Computation
Scientific paper
2011-01-02
Statistics
Computation
Scientific paper
I introduce a Markov chain Monte Carlo (MCMC) scheme in which sampling from a distribution with density pi(x) is done using updates operating on an "ensemble" of states. The current state x is first stochastically mapped to an ensemble, x^{(1)},...,x^{(K)}. This ensemble is then updated using MCMC updates that leave invariant a suitable ensemble density, rho(x^{(1)},...,x^{(K)}), defined in terms of pi(x^{(i)}) for i=1,...,K. Finally a single state is stochastically selected from the ensemble after these updates. Such ensemble MCMC updates can be useful when characteristics of pi and the ensemble permit pi(x^{(i)}) for all i in {1,...,K}, to be computed in less than K times the amount of computation time needed to compute pi(x) for a single x. One common situation of this type is when changes to some "fast" variables allow for quick re-computation of the density, whereas changes to other "slow" variables do not. Gaussian process regression models are an example of this sort of problem, with an overall scaling factor for covariances and the noise variance being fast variables. I show that ensemble MCMC for Gaussian process regression models can indeed substantially improve sampling performance. Finally, I discuss other possible applications of ensemble MCMC, and its relationship to the "multiple-try Metropolis" method of Liu, Liang, and Wong and the "multiset sampler" of Leman, Chen, and Lavine.
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