An invitation to adaptive Markov chain Monte Carlo convergence theory

Pietari Laitinen, Matti Vihola
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Abstract

Adaptive Markov chain Monte Carlo (MCMC) algorithms, which automatically tune their parameters based on past samples, have proved extremely useful in practice. The self-tuning mechanism makes them `non-Markovian', which means that their validity cannot be ensured by standard Markov chains theory. Several different techniques have been suggested to analyse their theoretical properties, many of which are technically involved. The technical nature of the theory may make the methods unnecessarily unappealing. We discuss one technique -- based on a martingale decomposition -- with uniformly ergodic Markov transitions. We provide an accessible and self-contained treatment in this setting, and give detailed proofs of the results discussed in the paper, which only require basic understanding of martingale theory and general state space Markov chain concepts. We illustrate how our conditions can accomodate different types of adaptation schemes, and can give useful insight to the requirements which ensure their validity.
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自适应马尔可夫链蒙特卡罗收敛理论邀请函
自适应马尔可夫链蒙特卡罗(MCMC)算法可根据过去的样本自动调整参数,在实践中已被证明非常有用。自调整机制使其成为 "非马尔可夫 "算法,这意味着标准马尔可夫链理论无法确保其有效性。人们提出了几种不同的技术来分析它们的理论特性,其中许多都涉及技术问题。理论的技术性可能会使这些方法失去吸引力。我们讨论了一种技术--基于马丁格尔分解--与均匀遍历马尔可夫变换。我们在这种情况下提供了一种通俗易懂、自成一体的处理方法,并对文中讨论的结果给出了详细的证明,而这只需要对鞅理论和一般状态空间马尔可夫链概念有基本的了解。我们说明了我们的条件如何适应不同类型的适应方案,并对确保其有效性的要求提出了有益的见解。
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