Finding perfect matchings in random cubic graphs in linear time
Combinatorics
2018-11-14 v2
Abstract
In a seminal paper on finding large matchings in sparse random graphs, Karp and Sipser proposed two algorithms for this task. The second algorithm has been intensely studied, but due to technical difficulties, the first algorithm has received less attention. Empirical results in \cite{KS} suggest that the first algorithm is superior. In this paper we show that this is indeed the case, at least for random cubic graphs. We show that w.h.p. the first algorithm will find a matching of size on a random cubic graph (indeed on a random graph with degrees in ). We also show that the algorithm can be adapted to find a perfect matching w.h.p. in time, as opposed to time for the worst-case.
Cite
@article{arxiv.1808.00825,
title = {Finding perfect matchings in random cubic graphs in linear time},
author = {Michael Anastos and Alan Frieze},
journal= {arXiv preprint arXiv:1808.00825},
year = {2018}
}