Gareth O. Roberts, Jeffrey S. Rosenthal
Published 2004-04-02, updated 2007-04-11Version 4
This paper surveys various results about Markov chains on general (non-countable) state spaces. It begins with an introduction to Markov chain Monte Carlo (MCMC) algorithms, which provide the motivation and context for the theory which follows. Then, sufficient conditions for geometric and uniform ergodicity are presented, along with quantitative bounds on the rate of convergence to stationarity. Many of these results are proved using direct coupling constructions based on minorisation and drift conditions. Necessary and sufficient conditions for Central Limit Theorems (CLTs) are also presented, in some cases proved via the Poisson Equation or direct regeneration constructions. Finally, optimal scaling and weak convergence results for Metropolis-Hastings algorithms are discussed. None of the results presented is new, though many of the proofs are. We also describe some Open Problems.
Comments: Published at http://dx.doi.org/10.1214/154957804100000024 in the Probability Surveys (http://www.i-journals.org/ps/) by the Institute of Mathematical Statistics (http://www.imstat.org)
Journal: Probability Surveys 2004, Vol. 1, 20-71
Central Limit Theorems on Compact Metric Spaces
Variance asymptotics and central limit theorems for generalized growth processes with applications to convex hulls and maximal points
Central limit theorems for generalized descents and generalized inversions in finite root systems
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