论交互作用在顺序蒙特卡罗算法中的作用

arXiv: Computation Pub Date : 2013-09-11 DOI:10.3150/14-BEJ666

N. Whiteley, Anthony Lee, K. Heine

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引用次数: 66

摘要

介绍了一种基于参数化重采样机制的顺序蒙特卡罗算法的一般形式。我们发现有效样本大小(ESS)的一个适当的广义概念，广泛用于监测算法的退化，自然出现在研究其收敛性。然后，我们能够根据ESS的算法控制来表达时间均匀收敛的充分条件，进而通过自适应调制粒子之间的相互作用来实现。这导致我们提出新的算法，这些算法在某种意义上是精确的，可证明是稳定的，但又设计成避免阻碍标准算法并行化的相互作用程度。作为一个副产品，我们证明了流行的自适应重采样粒子滤波器的时间一致收敛性。

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On the role of interaction in sequential Monte Carlo algorithms

We introduce a general form of sequential Monte Carlo algorithm defined in terms of a parameterized resampling mechanism. We find that a suitably generalized notion of the Effective Sample Size (ESS), widely used to monitor algorithm degeneracy, appears naturally in a study of its convergence properties. We are then able to phrase sufficient conditions for time-uniform convergence in terms of algorithmic control of the ESS, in turn achievable by adaptively modulating the interaction between particles. This leads us to suggest novel algorithms which are, in senses to be made precise, provably stable and yet designed to avoid the degree of interaction which hinders parallelization of standard algorithms. As a byproduct, we prove time-uniform convergence of the popular adaptive resampling particle filter.

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来源期刊

arXiv: Computation

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