Partial packing coloring and quasi-packing coloring of the triangular grid

IF 0.7 3区 数学 Q2 MATHEMATICS Discrete Mathematics Pub Date : 2024-11-12 DOI:10.1016/j.disc.2024.114308
Hubert Grochowski, Konstanty Junosza-Szaniawski
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Abstract

The concept of packing coloring in graph theory is motivated by the challenge of frequency assignment in radio networks. This approach entails assigning positive integers to vertices, with the requirement that for any given label (color) i, the distance between any two vertices sharing this label must exceed i. Recently, after over 20 years of intensive research, the minimal number of colors needed for packing coloring of an infinite square grid has been established to be 15. Moreover, it is known that a hexagonal grid requires a minimum of 7 colors for packing coloring, and a triangular grid is not colorable with any finite number of colors in a packing way.
Therefore, two questions come to mind: What fraction of a triangular grid can be colored in a packing model, and how much do we need to weaken the condition of packing coloring to enable coloring a triangular grid with a finite number of colors?
With the partial help of the Mixed Integer Linear Programming (MILP) solver, we have proven that it is possible to color at least 72.8% but no more than 82.2% of a triangular grid in a packing way.
Additionally, we have investigated the relaxation of packing coloring, called quasi-packing coloring, which is a special case of S-packing coloring. We have established that the S-packing chromatic number for the triangular grid, where S=(1,1,2,3,...), is between 11 and 33. Furthermore, we have proven that the aforementioned sequence S is the best possible in some sense.
We have also considered the partial packing and quasi-packing coloring of an infinite hypercube and present several open problems for other classes of graphs.
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三角形网格的部分堆积着色和准堆积着色
图论中的打包着色概念源于无线电网络中频率分配所面临的挑战。这种方法需要为顶点分配正整数,并要求对于任何给定的标签(颜色)i,共享该标签的任何两个顶点之间的距离必须超过 i。最近,经过 20 多年的深入研究,确定了无限正方形网格打包着色所需的最少颜色数为 15 种。此外,已知六边形网格打包着色至少需要 7 种颜色,而三角形网格无法用任何有限数量的颜色打包着色:因此,我们想到了两个问题:在打包模型中,有多大比例的三角形网格可以着色;我们需要在多大程度上削弱打包着色的条件,才能用有限数量的颜色给三角形网格着色?此外,我们还研究了打包着色的松弛,即准打包着色,它是 S-打包着色的一个特例。我们确定了三角形网格(其中 S=(1,1,2,3,......)的 S-堆积色度数介于 11 和 33 之间。此外,我们还证明了上述序列 S 在某种意义上是最好的。我们还考虑了无限超立方体的部分堆积和准堆积着色,并提出了其他类别图的几个未决问题。
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来源期刊
Discrete Mathematics
Discrete Mathematics 数学-数学
CiteScore
1.50
自引率
12.50%
发文量
424
审稿时长
6 months
期刊介绍: Discrete Mathematics provides a common forum for significant research in many areas of discrete mathematics and combinatorics. Among the fields covered by Discrete Mathematics are graph and hypergraph theory, enumeration, coding theory, block designs, the combinatorics of partially ordered sets, extremal set theory, matroid theory, algebraic combinatorics, discrete geometry, matrices, and discrete probability theory. Items in the journal include research articles (Contributions or Notes, depending on length) and survey/expository articles (Perspectives). Efforts are made to process the submission of Notes (short articles) quickly. The Perspectives section features expository articles accessible to a broad audience that cast new light or present unifying points of view on well-known or insufficiently-known topics.
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