Multilevel sequential Monte Carlo: Mean square error bounds under verifiable conditions |
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| Authors: | Pierre Del Moral Kody J. H. Law |
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| Affiliation: | 1. Center INRIA Bordeaux Sud-Ouest &2. Institut de Mathematiques de Bordeaux, Universite de Bordeaux I, Bordeaux, France;3. Computer Science and Mathematics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA |
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| Abstract: | In this article, we consider the multilevel sequential Monte Carlo (MLSMC) method of Beskos et al. (Stoch. Proc. Appl. [to appear]). This is a technique designed to approximate expectations w.r.t. probability laws associated to a discretization. For instance, in the context of inverse problems, where one discretizes the solution of a partial differential equation. The MLSMC approach is especially useful when independent, coupled sampling is not possible. Beskos et al. show that for MLSMC the computational effort to achieve a given error, can be less than independent sampling. In this article we significantly weaken the assumptions of Beskos et al., extending the proofs to non-compact state-spaces. The assumptions are based upon multiplicative drift conditions as in Kontoyiannis and Meyn (Electron. J. Probab. 10 [2005]: 61–123). The assumptions are verified for an example. |
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| Keywords: | Multilevel Monte Carlo sequential Monte Carlo drift conditions |
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