Destroying Bicolored P3s by Deleting Few Edges

Niels Grüttemeier, Christian Komusiewicz, Jannik Schestag, Frank Sommer
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引用次数: 3

Abstract

We introduce and study the Bicolored $P_3$ Deletion problem defined as follows. The input is a graph $G=(V,E)$ where the edge set $E$ is partitioned into a set $E_r$ of red edges and a set $E_b$ of blue edges. The question is whether we can delete at most $k$ edges such that $G$ does not contain a bicolored $P_3$ as an induced subgraph. Here, a bicolored $P_3$ is a path on three vertices with one blue and one red edge. We show that Bicolored $P_3$ Deletion is NP-hard and cannot be solved in $2^{o(|V|+|E|)}$ time on bounded-degree graphs if the ETH is true. Then, we show that Bicolored $P_3$ Deletion is polynomial-time solvable when $G$ does not contain a bicolored $K_3$, that is, a triangle with edges of both colors. Moreover, we provide a polynomial-time algorithm for the case that $G$ contains no blue $P_3$, red $P_3$, blue $K_3$, and red $K_3$. Finally, we show that Bicolored $P_3$ Deletion can be solved in $ O(1.84^k\cdot |V| \cdot |E|)$ time and that it admits a kernel with $ O(k\Delta\min(k,\Delta))$ vertices, where $\Delta$ is the maximum degree of $G$. Comment: 25 pages
通过删除一些边缘来破坏双色p3
我们介绍并研究了定义如下的双色$P_3$删除问题。输入是一个图形$G=(V,E)$,其中边集$E$被划分为红色边集$E_r$和蓝色边集$E_b$。问题是我们是否可以最多删除$k$条边,使得$G$不包含无颜色的$P_3$作为诱导子图。在这里,双色的$P_3$是一个有一个蓝色和一个红色边的三个顶点的路径。我们证明了如果ETH为真,biccolor$P_3$删除是np困难的,并且不能在$2^{o(|V|+|E|)}$时间有界度图中解决。然后,我们证明了当$G$不包含一个双色的$K_3$,即一个边有两种颜色的三角形时,双色的$P_3$删除是多项式时间可解的。此外,我们还提供了$G$不包含蓝色$P_3$、红色$P_3$、蓝色$K_3$和红色$K_3$的多项式时间算法。最后,我们证明了biccolor$P_3$删除可以在$ O(1.84^k\cdot |V| \cdot |E|)$时间内解决,并且它允许具有$ O(k\Delta\min(k,\Delta))$顶点的内核,其中$\Delta$是$G$的最大度。评论:25页
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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