Partitioning a graph into degenerate subgraphs
Abstract
Let be a connected graph with maximum degree distinct from . Given integers and , is said to be -partitionable if there exists a partition of into sets~ such that is -degenerate for . In this paper, we prove that we can find a -partition of in -time whenever and . This generalizes a result of Bonamy et al. (MFCS, 2017) and can be viewed as an algorithmic extension of Brooks' theorem and several results on vertex arboricity of graphs of bounded maximum degree. We also prove that deciding whether is -partitionable is -complete for every and pairs of non-negative integers such that and . This resolves an open problem of Bonamy et al. (manuscript, 2017). Combined with results of Borodin, Kostochka and Toft (\emph{Discrete Mathematics}, 2000), Yang and Yuan (\emph{Discrete Mathematics}, 2006) and Wu, Yuan and Zhao (\emph{Journal of Mathematical Study}, 1996), it also settles the complexity of deciding whether a graph with bounded maximum degree can be partitioned into two subgraphs of prescribed degeneracy.
Keywords
Cite
@article{arxiv.1803.04388,
title = {Partitioning a graph into degenerate subgraphs},
author = {Faisal N. Abu-Khzam and Carl Feghali and Pinar Heggernes},
journal= {arXiv preprint arXiv:1803.04388},
year = {2019}
}
Comments
16 pages; minor revision