Deterministic Online Bipartite Edge Coloring

Joakim Blikstad; Ola Svensson; Radu Vintan; David Wajc

arXiv:2408.03661·cs.DS·October 28, 2024

Deterministic Online Bipartite Edge Coloring

Joakim Blikstad, Ola Svensson, Radu Vintan, David Wajc

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Abstract

We study online bipartite edge coloring, with nodes on one side of the graph revealed sequentially. The trivial greedy algorithm is $(2 - o (1))$ -competitive, which is optimal for graphs of low maximum degree, $Δ = O (lo g n)$ [BNMN IPL'92]. Numerous online edge-coloring algorithms outperforming the greedy algorithm in various settings were designed over the years (e.g., AGKM FOCS'03, BMM SODA'10, CPW FOCS'19, BGW SODA'21, KLSST STOC'22, BSVW STOC'24), all crucially relying on randomization. A commonly-held belief, first stated by [BNMN IPL'92], is that randomization is necessary to outperform greedy. Surprisingly, we refute this belief, by presenting a deterministic algorithm that beats greedy for sufficiently large $Δ = Ω (lo g n)$ , and in particular has competitive ratio $\frac{e}{e - 1} + o (1)$ for all $Δ = ω (lo g n)$ . We obtain our result via a new and surprisingly…

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Topicsgraph theory and CDMA systems · Graph Labeling and Dimension Problems · Advanced Graph Theory Research