On the maximum weight minimal separator

Tesshu Hanaka; Hans L. Bodlaender; Tom C. van der Zanden; Hirotaka Ono

doi:10.1016/j.tcs.2019.09.025

On the maximum weight minimal separator

Tesshu Hanaka^*, Hans L. Bodlaender, Tom C. van der Zanden, Hirotaka Ono

^*Corresponding author for this work

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Abstract

Given an undirected and connected graph G=(V,E) and two vertices s,t∈V, a vertex subset S that separates s and t is called an s-t separator, and an s-t separator is called minimal if no proper subset of S separates s and t. Moreover, we say that a set S is a minimal separator of G if S is a minimal s-t separator for some s and t. In this paper, we consider finding a minimal (s-t) separator with maximum weight on a vertex-weighted graph. We first prove that these problems are NP-hard. On the other hand, we give an O⁎(twO(tw))-time deterministic algorithm based on tree decompositions where O⁎ is the order notation omitting the polynomial factor of n. Moreover, we improve the algorithm by using the Rank-Based approach and the running time is O⁎(38⋅2ω)tw. Finally, we give an O⁎(9tw⋅W2)-time randomized algorithm to determine whether there exists a minimal (s-t) separator where W is its weight and tw is the treewidth of G.

Original language	English
Pages (from-to)	294-308
Number of pages	15
Journal	Theoretical Computer Science
Volume	796
DOIs	https://doi.org/10.1016/j.tcs.2019.09.025
Publication status	Published - 3 Dec 2019

Keywords

Parameterized algorithm
Minimal separator
Treewidth
TREEWIDTH
FILL-IN

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Cite this

@article{863cd47e32114b9dbea650479e297148,

title = "On the maximum weight minimal separator",

abstract = "Given an undirected and connected graph G=(V,E) and two vertices s,t∈V, a vertex subset S that separates s and t is called an s-t separator, and an s-t separator is called minimal if no proper subset of S separates s and t. Moreover, we say that a set S is a minimal separator of G if S is a minimal s-t separator for some s and t. In this paper, we consider finding a minimal (s-t) separator with maximum weight on a vertex-weighted graph. We first prove that these problems are NP-hard. On the other hand, we give an O⁎(twO(tw))-time deterministic algorithm based on tree decompositions where O⁎ is the order notation omitting the polynomial factor of n. Moreover, we improve the algorithm by using the Rank-Based approach and the running time is O⁎(38⋅2ω)tw. Finally, we give an O⁎(9tw⋅W2)-time randomized algorithm to determine whether there exists a minimal (s-t) separator where W is its weight and tw is the treewidth of G.",

keywords = "Parameterized algorithm, Minimal separator, Treewidth, TREEWIDTH, FILL-IN",

author = "Tesshu Hanaka and Bodlaender, {Hans L.} and {van der Zanden}, {Tom C.} and Hirotaka Ono",

note = "data:no data used",

year = "2019",

month = dec,

day = "3",

doi = "10.1016/j.tcs.2019.09.025",

language = "English",

volume = "796",

pages = "294--308",

journal = "Theoretical Computer Science",

issn = "0304-3975",

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T1 - On the maximum weight minimal separator

AU - Hanaka, Tesshu

AU - Bodlaender, Hans L.

AU - van der Zanden, Tom C.

AU - Ono, Hirotaka

N1 - data:no data used

PY - 2019/12/3

Y1 - 2019/12/3

N2 - Given an undirected and connected graph G=(V,E) and two vertices s,t∈V, a vertex subset S that separates s and t is called an s-t separator, and an s-t separator is called minimal if no proper subset of S separates s and t. Moreover, we say that a set S is a minimal separator of G if S is a minimal s-t separator for some s and t. In this paper, we consider finding a minimal (s-t) separator with maximum weight on a vertex-weighted graph. We first prove that these problems are NP-hard. On the other hand, we give an O⁎(twO(tw))-time deterministic algorithm based on tree decompositions where O⁎ is the order notation omitting the polynomial factor of n. Moreover, we improve the algorithm by using the Rank-Based approach and the running time is O⁎(38⋅2ω)tw. Finally, we give an O⁎(9tw⋅W2)-time randomized algorithm to determine whether there exists a minimal (s-t) separator where W is its weight and tw is the treewidth of G.

AB - Given an undirected and connected graph G=(V,E) and two vertices s,t∈V, a vertex subset S that separates s and t is called an s-t separator, and an s-t separator is called minimal if no proper subset of S separates s and t. Moreover, we say that a set S is a minimal separator of G if S is a minimal s-t separator for some s and t. In this paper, we consider finding a minimal (s-t) separator with maximum weight on a vertex-weighted graph. We first prove that these problems are NP-hard. On the other hand, we give an O⁎(twO(tw))-time deterministic algorithm based on tree decompositions where O⁎ is the order notation omitting the polynomial factor of n. Moreover, we improve the algorithm by using the Rank-Based approach and the running time is O⁎(38⋅2ω)tw. Finally, we give an O⁎(9tw⋅W2)-time randomized algorithm to determine whether there exists a minimal (s-t) separator where W is its weight and tw is the treewidth of G.

KW - Parameterized algorithm

KW - Minimal separator

KW - Treewidth

KW - TREEWIDTH

KW - FILL-IN

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DO - 10.1016/j.tcs.2019.09.025

M3 - Article

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VL - 796

SP - 294

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JO - Theoretical Computer Science

JF - Theoretical Computer Science

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