Adaptive multiple importance sampling for Gaussian processes |
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| Authors: | Xiaoyu Xiong Václav Šmídl Maurizio Filippone |
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| Affiliation: | 1. School of Computing Science, University of Glasgow, Glasgow, UKx.xiong.1@research.gla.ac.uk;3. Institute of Information Theory and Automation, Czech Academy of Sciences, Prague, Czech Republic;4. Department of Data Science, EURECOM, Biot, France |
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| Abstract: | In applications of Gaussian processes (GPs) where quantification of uncertainty is a strict requirement, it is necessary to accurately characterize the posterior distribution over Gaussian process covariance parameters. This is normally done by means of standard Markov chain Monte Carlo (MCMC) algorithms, which require repeated expensive calculations involving the marginal likelihood. Motivated by the desire to avoid the inefficiencies of MCMC algorithms rejecting a considerable amount of expensive proposals, this paper develops an alternative inference framework based on adaptive multiple importance sampling (AMIS). In particular, this paper studies the application of AMIS for GPs in the case of a Gaussian likelihood, and proposes a novel pseudo-marginal-based AMIS algorithm for non-Gaussian likelihoods, where the marginal likelihood is unbiasedly estimated. The results suggest that the proposed framework outperforms MCMC-based inference of covariance parameters in a wide range of scenarios. |
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| Keywords: | Gaussian processes Bayesian inference Markov chain Monte Carlo importance sampling |
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