p-Edge/vertex-connected vertex cover: Parameterized and approximation algorithms

IF 1.1 3区计算机科学 Q1 BUSINESS, FINANCE Journal of Computer and System Sciences Pub Date : 2023-05-01 DOI:10.1016/j.jcss.2022.11.002

Carl Einarson , Gregory Gutin , Bart M.P. Jansen , Diptapriyo Majumdar , Magnus Wahlström

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引用次数: 5

Abstract

We introduce and study two natural generalizations of the Connected Vertex Cover (VC) problem: the p-Edge-Connected and p-Vertex-Connected VC problem (where $p \geq 2$ is a fixed integer). We obtain an $2^{O (p k)} n^{O (1)}$ -time algorithm for p-Edge-Connected VC and an $2^{O (k^{2})} n^{O (1)}$ -time algorithm for p-Vertex-Connected VC. Thus, like Connected VC, both constrained VC problems are FPT. Furthermore, like Connected VC, neither problem admits a polynomial kernel unless NP ⊆ coNP/poly, which is highly unlikely. We prove however that both problems admit time efficient polynomial sized approximate kernelization schemes. Finally, we describe a $2 (p + 1)$ -approximation algorithm for the p-Edge-Connected VC. The proofs for the new VC problems require more sophisticated arguments than for Connected VC. In particular, for the approximation algorithm we use Gomory-Hu trees and for the approximate kernels a result on small-size spanning p-vertex/edge-connected subgraphs of a p-vertex/edge-connected graph by Nishizeki and Poljak (1994) [30] and Nagamochi and Ibaraki (1992) [27].

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p边/顶点连接的顶点覆盖:参数化和近似算法

我们引入并研究了连通顶点覆盖（VC）问题的两个自然推广：p-边连通和p-顶点连通VC问题（其中p≥2是固定整数）。我们得到了p-边连通VC的一个2O（pk）nO（1）时间算法和p-顶点连通VC的2O（k2）nO（1）算法。因此，与连通VC一样，这两个约束VC问题都是FPT。此外，与连通VC一样，这两个问题都不允许多项式核，除非NP⊆coNP/poly，这是极不可能的。然而，我们证明了这两个问题都允许时间有效的多项式大小的近似核化方案。最后，我们描述了p-Edge-Connected VC的2（p+1）-近似算法。新VC问题的证明需要比连通VC更复杂的参数。特别是，对于近似算法，我们使用Gomory-Hu树，对于近似核，Nishizeki和Poljak（1994）[30]以及Nagamochi和Ibaraki（1992）[27]关于p顶点/边连通图的小尺寸生成p顶点/边缘连通子图的结果。

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来源期刊

Journal of Computer and System Sciences 工程技术-计算机：理论方法

CiteScore

3.70

自引率

0.00%

发文量

审稿时长

68 days

期刊介绍： The Journal of Computer and System Sciences publishes original research papers in computer science and related subjects in system science, with attention to the relevant mathematical theory. Applications-oriented papers may also be accepted and they are expected to contain deep analytic evaluation of the proposed solutions. Research areas include traditional subjects such as: • Theory of algorithms and computability • Formal languages • Automata theory Contemporary subjects such as: • Complexity theory • Algorithmic Complexity • Parallel & distributed computing • Computer networks • Neural networks • Computational learning theory • Database theory & practice • Computer modeling of complex systems • Security and Privacy.