On Graphs with Proper Connection Number 2

Q4 Mathematics

Theory and Applications of Graphs Pub Date : 2021-08-02 DOI:10.20429/tag.2021.080202

J. Faudree, Leah Wrenn Berman, G. G. Chappell, C. Hartman, J. Gimbel, G. Williams

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引用次数: 0

Abstract

An edge-colored graph is properly connected if for every pair of vertices u and v there exists a properly colored uv-path (i.e. a uv-path in which no two consecutive edges have the same color). The proper connection number of a connected graph G, denoted pc(G), is the smallest number of colors needed to color the edges of G such that the resulting colored graph is properly connected. An edge-colored graph is flexibly connected if for every pair of vertices u and v there exist two properly colored paths between them, say P and Q, such that the first edges of P and Q have different colors and the last edges of P and Q have different colors. The flexible connection number of a connected graph G, denoted fpc(G), is the smallest number of colors needed to color the edges of G such that the resulting colored graph is flexibly connected. In this paper, we demonstrate several methods for constructing graphs with pc(G) = 2 and fpc(G) = 2. We describe several families of graphs such that pc(G) ≥ 2 and we settle a conjecture from [3]. We prove that if G is connected and bipartite, then pc(G) = 2 is equivalent to being 2-edge-connected and fpc(G) = 2 is equivalent to the existence of a path through all cut-edges. Finally, it is proved that every connected, k-regular, Class 1 graph has flexible connection number 2.

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关于具有适当连接数2的图

如果每对顶点u和v都存在一条正确着色的uv路径（即没有两条连续边具有相同颜色的uv路径），则边着色图是正确连接的。连通图G的正确连接数，表示为pc（G），是为G的边着色以使得到的着色图正确连接所需的最小颜色数。如果对于每对顶点u和v，它们之间存在两条适当着色的路径，比如P和Q，使得P和Q的第一条边具有不同的颜色，而P和Q最后一条边具有相同的颜色，则边着色图是灵活连接的。连通图G的柔性连接数，表示为fpc（G），是为G的边着色所需的最小颜色数，使得得到的着色图是柔性连接的。在本文中，我们证明了构造pc（G）=2和fpc（G）=2的图的几种方法。我们描述了几个图族，使得pc（G）≥2，并解决了[3]中的一个猜想。我们证明了如果G是连通的和二分的，那么pc（G）=2等价于2-边连通，fpc（G）=2等价于通过所有割边的路径的存在。最后，证明了每一个连通的k-正则1类图都有2个柔性连接数。

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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