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2015 | OriginalPaper | Chapter

An FPT 2-Approximation for Tree-cut Decomposition

Authors : Eunjung Kim, Sang-il Oum, Christophe Paul, Ignasi Sau, Dimitrios M. Thilikos

Published in: Approximation and Online Algorithms

Publisher: Springer International Publishing

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Abstract

The tree-cut width of a graph is a graph parameter defined by Wollan [J. Comb. Theory, Ser. B, 110:47–66, 2015] with the help of tree-cut decompositions. In certain cases, tree-cut width appears to be more adequate than treewidth as an invariant that, when bounded, can accelerate the resolution of intractable problems. While designing algorithms for problems with bounded tree-cut width, it is important to have a parametrically tractable way to compute the exact value of this parameter or, at least, some constant approximation of it. In this paper we give a parameterized 2-approximation algorithm for the computation of tree-cut width; for an input n-vertex graph G and an integer w, our algorithm either confirms that the tree-cut width of G is more than w or returns a tree-cut decomposition of G certifying that its tree-cut width is at most 2w, in time \(2^{O(w^2\log w)} \cdot n^2\). Prior to this work, no constructive parameterized algorithms, even approximated ones, existed for computing the tree-cut width of a graph. As a consequence of the Graph Minors series by Robertson and Seymour, only the existence of a decision algorithm was known.

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previous chapter Maximum ATSP with Weights Zero and One via Half-Edges

next chapter Tight Bounds for Double Coverage Against Weak Adversaries

We avoid the formal definition of a wall in this extended abstract. Instead, we provide the following image that, we believe, provides the necessary intuition.

A graph H is a topological minor of a graph G if a subdivision of H is a subgraph of G.

A graph H is an immersion of a graph G if H can be obtained from some subgraph of G after replacing edge-disjoint paths with edges.

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Title: An FPT 2-Approximation for Tree-cut Decomposition
Authors: Eunjung Kim
Sang-il Oum
Christophe Paul
Ignasi Sau
Dimitrios M. Thilikos
Publisher: Springer International Publishing
Book: Approximation and Online Algorithms
Print ISBN: 978-3-319-28683-9

Electronic ISBN: 978-3-319-28684-6

Copyright Year: 2015
DOI: https://doi.org/10.1007/978-3-319-28684-6_4

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