Tail estimates for sums of variables sampled from a random walk

Abstract

We prove tail estimates for variables Σi f(Xi), where (Xi)i is the trajectory of a random walk on an undirected graph (or, equivalently, a reversible Markov chain). The estimates are in terms of the maximum of the function f, its variance, and the spectrum of the graph. Our proofs are more elementary than other proofs in the literature, and our results are sharper. We obtain Bernstein and Bennett-type inequalities, as well as an inequality for subgaussian variables.

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