English

Burnside process on parking functions and Dyck paths

Probability 2026-05-18 v1 Combinatorics

Abstract

Let GG be a finite group acting on a finite set XX. This group action splits XX into disjoint orbits. The Burnside process is a Markov chain on XX which has a uniform stationary distribution when the chain is projected to orbits. We initiate the study of the Burnside process on Catalan structures. We consider two special cases: the first where the state space is the set of parking functions of length nn and G=SnG = S_n is the symmetric group on [n][n], such that GG acts by permuting coordinates, and the second where the state space is the set of labeled Dyck paths of length 2n2n and G=SnG = S_n acts by permuting labels. The resulting Burnside processes give novel algorithms for sampling, respectively, an increasing parking function and a Dyck path approximately uniformly at random. Our main result shows that both processes are rapidly mixing, with mixing times upper bounded by O(nlogn)O(n \log n). As an application, we show how our Burnside process can be used to sample triangulations of an (n+2)(n+2)-gon approximately uniformly at random.

Keywords

Cite

@article{arxiv.2605.16244,
  title  = {Burnside process on parking functions and Dyck paths},
  author = {Ivan Z. Feng and J. E. Paguyo},
  journal= {arXiv preprint arXiv:2605.16244},
  year   = {2026}
}

Comments

17 pages, 2 figures