Cut and Count and Representative Sets on Branch Decompositions

International Symposium on Parameterized and Exact Computation Pub Date : 2017-02-01 DOI:10.4230/LIPIcs.IPEC.2016.27

Willem J. A. Pino, H. Bodlaender, Johan M. M. van Rooij

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引用次数: 7

Abstract

Recently, new techniques have been introduced to speed up dynamic programming algorithms on tree decompositions for connectivity problems: the 'Cut and Count' method and a method called the rank-based approach, based on representative sets and Gaussian elimination. These methods respectively give randomised and deterministic algorithms that are single exponential in the treewidth, and polynomial, respectively linear in the number of vertices. In this paper, we adapt these methods to branch decompositions yielding algorithms, both randomised and deterministic, that are in many cases faster than when tree decompositions would be used. In particular, we obtain the currently fastest randomised algorithms for several problems on planar graphs. When the involved weights are O(n^{O(1)}), we obtain faster randomised algorithms on planar graphs for Steiner Tree, Connected Dominating Set, Feedback Vertex Set and TSP, and a faster deterministic algorithm for TSP. When considering planar graphs with arbitrary real weights, we obtain faster deterministic algorithms for all four mentioned problems.

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分支分解上的切数和代表集

最近，引入了新的技术来加速连接问题树分解的动态规划算法:“Cut and Count”方法和基于代表性集和高斯消去的基于秩的方法。这些方法分别给出了随机和确定性算法，它们在树宽上是单指数的，在顶点数量上是多项式的，分别是线性的。在本文中，我们将这些方法应用于分支分解，产生随机和确定性的算法，在许多情况下，这些算法比使用树分解要快。特别地，我们获得了目前最快的随机算法在几个平面图上的问题。当涉及的权重为O(n^{O(1)})时，我们得到了更快的平面上Steiner树、连通支配集、反馈顶点集和TSP的随机化算法，以及更快的TSP确定性算法。当考虑具有任意实权的平面图时，我们得到了所有上述问题的更快的确定性算法。

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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International Symposium on Parameterized and Exact Computation

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