arXiv:1606.01528 Abstract | arXiv Analytics

arXiv:1606.01528 [math.PR]Abstract References Reviews Resources

A Dirichlet Form approach to MCMC Optimal Scaling

Giacomo Zanella, Wilfrid S. Kendall, Mylène Bédard

Published 2016-06-05Version 1

This paper develops the use of Dirichlet forms to deliver proofs of optimal scaling results for Markov chain Monte Carlo algorithms (specifically, Metropolis-Hastings random walk samplers) under regularity conditions which are substantially weaker than those required by the original approach (based on the use of infinitesimal generators). The Dirichlet form methods have the added advantage of providing an explicit construction of the underlying infinite-dimensional context. In particular, this enables us directly to establish weak convergence to the relevant infinite-dimensional distributions.

Comments: 22 pages

Categories: math.PR, stat.CO

Subjects: 60F05, 60J22, 65C05

Keywords: dirichlet form approach, mcmc optimal scaling, markov chain monte carlo algorithms, metropolis-hastings random walk samplers, dirichlet form methods

Related articles: Most relevant | Search more

arXiv:1207.6779 [math.PR] (Published 2012-07-29, updated 2014-07-28)

On the Convergence Rates of Some Adaptive Markov Chain Monte Carlo Algorithms

Yves Atchadé, Yizao Wang

arXiv:1807.11358 [math.PR] (Published 2018-07-30)

High-dimensional scaling limits of piecewise deterministic sampling algorithms

Joris Bierkens, Kengo Kamatani, Gareth O. Roberts

arXiv:math/0610317 [math.PR] (Published 2006-10-10)