中文

Non-backtracking random walks mix faster

概率论 2011-06-27 v1 组合数学

摘要

We compute the mixing rate of a non-backtracking random walk on a regular expander. Using some properties of Chebyshev polynomials of the second kind, we show that this rate may be up to twice as fast as the mixing rate of the simple random walk. The closer the expander is to a Ramanujan graph, the higher the ratio between the above two mixing rates is. As an application, we show that if GG is a high-girth regular expander on nn vertices, then a typical non-backtracking random walk of length nn on GG does not visit a vertex more than (1+o(1))lognloglogn(1+o(1))\frac{\log n}{\log\log n} times, and this result is tight. In this sense, the multi-set of visited vertices is analogous to the result of throwing nn balls to nn bins uniformly, in contrast to the simple random walk on GG, which almost surely visits some vertex Ω(logn)\Omega(\log n) times.

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引用

@article{arxiv.math/0610550,
  title  = {Non-backtracking random walks mix faster},
  author = {Noga Alon and Itai Benjamini and Eyal Lubetzky and Sasha Sodin},
  journal= {arXiv preprint arXiv:math/0610550},
  year   = {2011}
}

备注

18 pages; 2 figures