路径图上斯坦纳树和(相连)支配集的参数化算法

IF 1.6 4区 计算机科学 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Networks Pub Date : 2024-04-15 DOI:10.1002/net.22220
Celina M. H. de Figueiredo, Raul Lopes, Alexsander A. de Melo, Ana Silva
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引用次数: 0

摘要

弦图是树的子树的交集图,而区间图是路径的子路径的交集图。无向路径图、有向路径图和有根有向路径图是中间图类,分别定义为树的路径交图、定向树的有向路径交图和外分支的有向路径交图。所有这些路径图都有顶点叶序 2。支配集问题、连接支配集问题和斯坦纳树问题在弦图上是以解的大小为参数的困难问题,在无向路径图上是不完全问题,在有根有向路径图上是多项式时间可解问题,因此在区间图上也是如此。考虑到顶点叶片和上述类别,我们进一步研究了所有这些问题在限制于弦图情况下的(参数化)复杂性。我们证明,当以解的大小和顶点叶数为参数时,支配集、连通支配集和斯坦纳树都在弦图上,而加权连通支配集在强弦图上是多项式时间可解的。我们还引入了无向路径图的一个新子类,我们称之为有向路径图(in-out rooted directed path graphs),即in-out分支的有向路径的交集图。我们证明,在这一类图上,多项式时间内可求解支配集、连通支配集和斯坦纳树,从而推广了布斯和约翰逊证明的有根有向径图的多项式性(SIAM J. Comput.11 (1982),191-199。)和 White 等人(Networks 15 (1985),109-124。)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parameterized algorithms for Steiner tree and (connected) dominating set on path graphs
Chordal graphs are the intersection graphs of subtrees of a tree, while interval graphs of subpaths of a path. Undirected path graphs, directed path graphs and rooted directed path graphs are intermediate graph classes, defined, respectively, as the intersection graphs of paths of a tree, of directed paths of an oriented tree, and of directed paths of an out branching. All of these path graphs have vertex leafage 2. Dominating Set, Connected Dominating Set, and Steiner tree problems are ‐hard parameterized by the size of the solution on chordal graphs, ‐complete on undirected path graphs, and polynomial‐time solvable on rooted directed path graphs, and hence also on interval graphs. We further investigate the (parameterized) complexity of all these problems when constrained to chordal graphs, taking the vertex leafage and the aforementioned classes into consideration. We prove that Dominating Set, Connected Dominating Set, and Steiner tree are on chordal graphs when parameterized by the size of the solution plus the vertex leafage, and that Weighted Connected Dominating Set is polynomial‐time solvable on strongly chordal graphs. We also introduce a new subclass of undirected path graphs, which we call in–out rooted directed path graphs, as the intersection graphs of directed paths of an in–out branching. We prove that Dominating Set, Connected Dominating Set, and Steiner tree are solvable in polynomial time on this class, generalizing the polynomiality for rooted directed path graphs proved by Booth and Johnson (SIAM J. Comput. 11 (1982), 191‐199.) and by White et al. (Networks 15 (1985), 109‐124.).
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来源期刊
Networks
Networks 工程技术-计算机:硬件
CiteScore
4.40
自引率
9.50%
发文量
46
审稿时长
12 months
期刊介绍: Network problems are pervasive in our modern technological society, as witnessed by our reliance on physical networks that provide power, communication, and transportation. As well, a number of processes can be modeled using logical networks, as in the scheduling of interdependent tasks, the dating of archaeological artifacts, or the compilation of subroutines comprising a large computer program. Networks provide a common framework for posing and studying problems that often have wider applicability than their originating context. The goal of this journal is to provide a central forum for the distribution of timely information about network problems, their design and mathematical analysis, as well as efficient algorithms for carrying out optimization on networks. The nonstandard modeling of diverse processes using networks and network concepts is also of interest. Consequently, the disciplines that are useful in studying networks are varied, including applied mathematics, operations research, computer science, discrete mathematics, and economics. Networks publishes material on the analytic modeling of problems using networks, the mathematical analysis of network problems, the design of computationally efficient network algorithms, and innovative case studies of successful network applications. We do not typically publish works that fall in the realm of pure graph theory (without significant algorithmic and modeling contributions) or papers that deal with engineering aspects of network design. Since the audience for this journal is then necessarily broad, articles that impact multiple application areas or that creatively use new or existing methodologies are especially appropriate. We seek to publish original, well-written research papers that make a substantive contribution to the knowledge base. In addition, tutorial and survey articles are welcomed. All manuscripts are carefully refereed.
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