A Branch-and-Cut algorithm for the Capacitated Multi-Failure Survivable Network Design problem

S. Borne; E. Gourdin; O. Klopfenstein; A. R. Mahjoub

doi:10.1016/j.cie.2018.05.043

A Branch-and-Cut algorithm for the Capacitated Multi-Failure Survivable Network Design problem

S. Borne
, E. Gourdin
, O. Klopfenstein
, A. R. Mahjoub

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

Abstract

Telecommunication networks can be seen as the stacking of several layers like, for instance, IP-over-Optical networks. This infrastructure should have sufficient capacities to route some demands between their origin-destination nodes. In this paper we consider the Capacitated Multi-Failure Survivable Network Design problem. We study two variants of this problem with simple and multiple capacities. We give two multicommodity flow formulations for each variant of this problem and describe some valid inequalities. In particular, we characterize valid inequalities obtained using Chvatal-Gomory procedure from the well known Cutset inequalities. We show that some of these inequalities are facet defining. We discuss separation routines for all the valid inequalities. Using these results, we develop a Branch-and-Cut algorithm and a Branch-and-Cut-and-Price algorithm for each variant and present extensive computational results.

Original language	English
Pages (from-to)	582-603
Number of pages	22
Journal	Computers and Industrial Engineering
Volume	124
DOIs	https://doi.org/10.1016/j.cie.2018.05.043
Publication status	Published - 1 Oct 2018
Externally published	Yes

Keywords

Branch-and-Cut-and-Price algorithms
Capacities
Facet
IP-over-optical network
Polytope
Survivability

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10.1016/j.cie.2018.05.043

Cite this

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title = "A Branch-and-Cut algorithm for the Capacitated Multi-Failure Survivable Network Design problem",

abstract = "Telecommunication networks can be seen as the stacking of several layers like, for instance, IP-over-Optical networks. This infrastructure should have sufficient capacities to route some demands between their origin-destination nodes. In this paper we consider the Capacitated Multi-Failure Survivable Network Design problem. We study two variants of this problem with simple and multiple capacities. We give two multicommodity flow formulations for each variant of this problem and describe some valid inequalities. In particular, we characterize valid inequalities obtained using Chvatal-Gomory procedure from the well known Cutset inequalities. We show that some of these inequalities are facet defining. We discuss separation routines for all the valid inequalities. Using these results, we develop a Branch-and-Cut algorithm and a Branch-and-Cut-and-Price algorithm for each variant and present extensive computational results.",

keywords = "Branch-and-Cut-and-Price algorithms, Capacities, Facet, IP-over-optical network, Polytope, Survivability",

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doi = "10.1016/j.cie.2018.05.043",

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T1 - A Branch-and-Cut algorithm for the Capacitated Multi-Failure Survivable Network Design problem

AU - Borne, S.

AU - Gourdin, E.

AU - Klopfenstein, O.

AU - Mahjoub, A. R.

PY - 2018/10/1

Y1 - 2018/10/1

N2 - Telecommunication networks can be seen as the stacking of several layers like, for instance, IP-over-Optical networks. This infrastructure should have sufficient capacities to route some demands between their origin-destination nodes. In this paper we consider the Capacitated Multi-Failure Survivable Network Design problem. We study two variants of this problem with simple and multiple capacities. We give two multicommodity flow formulations for each variant of this problem and describe some valid inequalities. In particular, we characterize valid inequalities obtained using Chvatal-Gomory procedure from the well known Cutset inequalities. We show that some of these inequalities are facet defining. We discuss separation routines for all the valid inequalities. Using these results, we develop a Branch-and-Cut algorithm and a Branch-and-Cut-and-Price algorithm for each variant and present extensive computational results.

AB - Telecommunication networks can be seen as the stacking of several layers like, for instance, IP-over-Optical networks. This infrastructure should have sufficient capacities to route some demands between their origin-destination nodes. In this paper we consider the Capacitated Multi-Failure Survivable Network Design problem. We study two variants of this problem with simple and multiple capacities. We give two multicommodity flow formulations for each variant of this problem and describe some valid inequalities. In particular, we characterize valid inequalities obtained using Chvatal-Gomory procedure from the well known Cutset inequalities. We show that some of these inequalities are facet defining. We discuss separation routines for all the valid inequalities. Using these results, we develop a Branch-and-Cut algorithm and a Branch-and-Cut-and-Price algorithm for each variant and present extensive computational results.

KW - Branch-and-Cut-and-Price algorithms

KW - Capacities

KW - Facet

KW - IP-over-optical network

KW - Polytope

KW - Survivability

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ER -

A Branch-and-Cut algorithm for the Capacitated Multi-Failure Survivable Network Design problem

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Keywords

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