Algorithms and formulations for the minimum cut separator problem

Walid Ben-Ameur; Mohamed Didi Biha

doi:10.1016/j.endm.2010.05.124

Algorithms and formulations for the minimum cut separator problem

Walid Ben-Ameur
, Mohamed Didi Biha

Normandy University

Research output: Contribution to journal › Article › peer-review

Abstract

Given G=(V,E) an undirected graph and two specified nonadjacent nodes a and b of V, a cut separator is a subset F=δ(C)⊆E such that a,b∈V\C and a and b belong to different connected components of the graph induced by V\C. Given a nonnegative cost vector c∈R+|E|, cut separator of minimum cost. This new problem is closely related to the vertex separator problem. In this paper, we give a polynomial time algorithm for this problem. We also present four equivalent linear formulations, and we show their tightness. Using these results we obtain an explicit short polyhedral description of the dominant of the cut separator polytope.

Original language	English
Pages (from-to)	977-983
Number of pages	7
Journal	Electronic Notes in Discrete Mathematics
Volume	36
Issue number	C
DOIs	https://doi.org/10.1016/j.endm.2010.05.124
Publication status	Published - 1 Aug 2010

Keywords

Compact Formulations
Minimum Cut
Polyhedra
Polytime algorithms

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10.1016/j.endm.2010.05.124

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title = "Algorithms and formulations for the minimum cut separator problem",

abstract = "Given G=(V,E) an undirected graph and two specified nonadjacent nodes a and b of V, a cut separator is a subset F=δ(C)⊆E such that a,b∈V\textbackslash{}C and a and b belong to different connected components of the graph induced by V\textbackslash{}C. Given a nonnegative cost vector c∈R+|E|, cut separator of minimum cost. This new problem is closely related to the vertex separator problem. In this paper, we give a polynomial time algorithm for this problem. We also present four equivalent linear formulations, and we show their tightness. Using these results we obtain an explicit short polyhedral description of the dominant of the cut separator polytope.",

keywords = "Compact Formulations, Minimum Cut, Polyhedra, Polytime algorithms",

author = "Walid Ben-Ameur and \{Didi Biha\}, Mohamed",

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T1 - Algorithms and formulations for the minimum cut separator problem

AU - Ben-Ameur, Walid

AU - Didi Biha, Mohamed

PY - 2010/8/1

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N2 - Given G=(V,E) an undirected graph and two specified nonadjacent nodes a and b of V, a cut separator is a subset F=δ(C)⊆E such that a,b∈V\C and a and b belong to different connected components of the graph induced by V\C. Given a nonnegative cost vector c∈R+|E|, cut separator of minimum cost. This new problem is closely related to the vertex separator problem. In this paper, we give a polynomial time algorithm for this problem. We also present four equivalent linear formulations, and we show their tightness. Using these results we obtain an explicit short polyhedral description of the dominant of the cut separator polytope.

AB - Given G=(V,E) an undirected graph and two specified nonadjacent nodes a and b of V, a cut separator is a subset F=δ(C)⊆E such that a,b∈V\C and a and b belong to different connected components of the graph induced by V\C. Given a nonnegative cost vector c∈R+|E|, cut separator of minimum cost. This new problem is closely related to the vertex separator problem. In this paper, we give a polynomial time algorithm for this problem. We also present four equivalent linear formulations, and we show their tightness. Using these results we obtain an explicit short polyhedral description of the dominant of the cut separator polytope.

KW - Compact Formulations

KW - Minimum Cut

KW - Polyhedra

KW - Polytime algorithms

U2 - 10.1016/j.endm.2010.05.124

DO - 10.1016/j.endm.2010.05.124

M3 - Article

AN - SCOPUS:77954899304

SN - 1571-0653

VL - 36

SP - 977

EP - 983

JO - Electronic Notes in Discrete Mathematics

JF - Electronic Notes in Discrete Mathematics

IS - C

ER -

Algorithms and formulations for the minimum cut separator problem

Abstract

Keywords

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