The linear arboricity conjecture for graphs of low degeneracy

TL;DR

This paper advances the understanding of the linear arboricity conjecture by proving it for 3-degenerate graphs with certain degree conditions and for 2-degenerate graphs with higher maximum degree, extending previous results.

Contribution

It proves the conjecture for all 3-degenerate graphs with maximum degree at least 9 and for 2-degenerate graphs with maximum degree at least 5, providing new proofs and extending known bounds.

Findings

Linear arboricity equals ceiling of degree over 2 for 3-degenerate graphs with degree ≥ 9.

Linear arboricity equals ceiling of degree over 2 for 2-degenerate graphs with degree ≥ 5.

Extended techniques offer alternative proof for the conjecture on 3-degenerate graphs.

Abstract

A linear forest is an acyclic graph whose each connected component is a path; or in other words, it is an acyclic graph whose maximum degree is at most 2. A linear coloring of a graph $G$ is an edge coloring of $G$ such that the edges in each color class form a linear forest. The linear arboricity of $G$, denoted as $\chi'_l(G)$, is the minimum number of colors required in any linear coloring of $G$. It is easy to see that for any graph $G$, $\chi'_l(G)\geq\left\lceil\frac{\Delta(G)}{2}\right\rceil$, where $\Delta(G)$ is the maximum degree of $G$. The Linear Arboricity Conjecture of Akiyama, Exoo and Harary from 1980 states that for every graph $G$, $\chi'_l(G)\leq \left \lceil \frac{\Delta(G)+1}{2}\right\rceil$. Basavaraju et al. showed that the conjecture is true for 3-degenerate graphs and provided a linear time algorithm for computing a linear coloring using at most $\left\lceil\frac{\Delta(G)+1}{2}\right\rceil$ colors for any input 3-degenerate graph $G$. Recently, Chen, Hao and Yu showed that $\chi'_l(G)=\left\lceil\frac{\Delta(G)}{2}\right\rceil$ for any $k$-degenerate graph $G$ having $\Delta(G)\geq 2k^2-k$. From this result, we have $\chi'_l(G)=\left\lceil\frac{\Delta(G)}{2}\right\rceil$ for every 3-degenerate graph $G$ having $\Delta(G)\geq 15$. We show that this equality holds for every 3-degenerate graph $G$ having $\Delta(G)\geq 9$. Moreover, by extending the techniques used, we show a different proof for the Linear Arboricity Conjecture on 3-degenerate graphs. Next, we prove that for every 2-degenerate graph $G$, $\chi'_l(G)=\left\lceil\frac{\Delta(G)}{2}\right\rceil$ if $\Delta(G)\geq 5$. We conjecture that this equality holds also when $\Delta(G)\in\{3,4\}$ and show that this is the case for some well-known subclasses of 2-degenerate graphs.