List-Avoiding Orientations

IF 1 2区数学 Q1 MATHEMATICS

Combinatorica Pub Date : 2024-06-11 DOI:10.1007/s00493-024-00109-z

Peter Bradshaw, Yaobin Chen, Hao Ma, Bojan Mohar, Hehui Wu

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引用次数: 0

Abstract

Given a graph G with a set F(v) of forbidden values at each \(v \in V(G)\), an F-avoiding orientation of G is an orientation in which \(\deg ^+(v) \not \in F(v)\) for each vertex v. Akbari, Dalirrooyfard, Ehsani, Ozeki, and Sherkati conjectured that if \(|F(v)| < \frac{1}{2} \deg (v)\) for each \(v \in V(G)\), then G has an F-avoiding orientation, and they showed that this statement is true when \(\frac{1}{2}\) is replaced by \(\frac{1}{4}\). In this paper, we take a step toward this conjecture by proving that if \(|F(v)| < \lfloor \frac{1}{3} \deg (v) \rfloor \) for each vertex v, then G has an F-avoiding orientation. Furthermore, we show that if the maximum degree of G is subexponential in terms of the minimum degree, then this coefficient of \(\frac{1}{3}\) can be increased to \(\sqrt{2} - 1 - o(1) \approx 0.414\). Our main tool is a new sufficient condition for the existence of an F-avoiding orientation based on the Combinatorial Nullstellensatz of Alon and Tarsi.

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Akbari, Dalirrooyfard, Ehsani, Ozeki 和 Sherkati 猜想，如果每个顶点 v 都有\(|F(v)| < \frac{1}{2}\deg (v)/not \in F(v)\) ，那么 G 有一个 F-avoiding 方向。\deg (v)\) for each \(v \in V(G)\), then G has an F-avoiding orientation, and they showed that this statement is true when \(\frac{1}{2}\) is replaced by \(\frac{1}{4}\).在本文中，我们朝着这个猜想迈出了一步，证明了如果 \(|F(v)| < \lfloor \frac{1}{3}\deg (v) \rfloor \），那么 G 就有一个避开 F 的方向。此外，我们还证明了如果 G 的最大度是最小度的亚指数，那么这个 \(\frac{1}{3}\) 的系数可以增加到 \(\sqrt{2}.- 1 - o(1) （大约 0.414）。我们的主要工具是基于 Alon 和 Tarsi 的 "组合无效定理"（Combinatorial Nullstellensatz）的一个新的 F-avoiding 方向存在的充分条件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Combinatorica 数学-数学

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： COMBINATORICA publishes research papers in English in a variety of areas of combinatorics and the theory of computing, with particular emphasis on general techniques and unifying principles. Typical but not exclusive topics covered by COMBINATORICA are - Combinatorial structures (graphs, hypergraphs, matroids, designs, permutation groups). - Combinatorial optimization. - Combinatorial aspects of geometry and number theory. - Algorithms in combinatorics and related fields. - Computational complexity theory. - Randomization and explicit construction in combinatorics and algorithms.