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Bibliographic Details
Main Author: Tao, Tianyi
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2303.16237
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author Tao, Tianyi
author_facet Tao, Tianyi
contents For a graph $G$, a vertex coloring $f$ is called nonrepetitive if for all $k\in\mathbb N$ and all $P_{2k}=\langle v_1, \cdots, v_k,v_{k+1}, \cdots, v_{2k}\rangle$ (path of $2k$ vertices) in $G$, there must be some $1\le i\le k$ such that $f(v_i)\not=f(v_{k+i})$. We use $π(G)$ to denote the minimum number of colors required for $G$ to be nonrepetitively colored. In 1906, Thue proved that $π(P_n)\le3$ for all $n$. In this paper, we focus on grids, which are the Cartesian products of paths. We prove that $5\leπ(P_n\square P_n)\le12$ for sufficiently large $n$, where the previous best lower bound was 4 and upper bound was 16. Moreover, we also discuss nonrepetitive coloring of the Cartesian product of complete graphs.
format Preprint
id arxiv_https___arxiv_org_abs_2303_16237
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle The nonrepetitive colorings of grids
Tao, Tianyi
Combinatorics
For a graph $G$, a vertex coloring $f$ is called nonrepetitive if for all $k\in\mathbb N$ and all $P_{2k}=\langle v_1, \cdots, v_k,v_{k+1}, \cdots, v_{2k}\rangle$ (path of $2k$ vertices) in $G$, there must be some $1\le i\le k$ such that $f(v_i)\not=f(v_{k+i})$. We use $π(G)$ to denote the minimum number of colors required for $G$ to be nonrepetitively colored. In 1906, Thue proved that $π(P_n)\le3$ for all $n$. In this paper, we focus on grids, which are the Cartesian products of paths. We prove that $5\leπ(P_n\square P_n)\le12$ for sufficiently large $n$, where the previous best lower bound was 4 and upper bound was 16. Moreover, we also discuss nonrepetitive coloring of the Cartesian product of complete graphs.
title The nonrepetitive colorings of grids
topic Combinatorics
url https://arxiv.org/abs/2303.16237