Sharp approximation for density dependent Markov chains

Abstract

Consider a sequence (indexed by n) of Markov chains Zn in Rd characterized by transition kernels that approximately (in n) depend only on the rescaled state n-1 Zn. Subject to a smoothness condition, such a family can be closely coupled on short time intervals to a Brownian motion with quadratic drift. This construction is used to determine the first two terms in the asymptotic (in n) expansion of the probability that the rescaled chain exits a convex polytope. The constant term and the first correction of size n-1/6 admit sharp characterization by solutions to associated differential equations and an absolute constant. The error is smaller than O(n-b) for any b < 1/4. These results are directly applied to the analysis of randomized algorithms at phase transitions. In particular, the `peeling' algorithm in large random hypergraphs, or equivalently the iterative decoding scheme for low-density parity-check codes over the binary erasure channel is studied to determine the finite size scaling behavior for irregular hypergraph ensembles.