Two-edge connected subgraphs with bounded rings: Polyhedral results and Branch-and-Cut

Fortz, Bernard; Mahjoub, A.R.; McCormick, S.T.; Pesneau, P.

doi:10.1007/s10107-005-0576-5

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Two-edge connected subgraphs with bounded rings: Polyhedral results and Branch-and-Cut

Fortz, Bernard; Mahjoub, A.R.; McCormick, S.T. et al.

2006 • In Mathematical Programming, 105 (1), p. 85-111

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https://hdl.handle.net/2268/318179

DOI
10.1007/s10107-005-0576-5

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Keywords :

Network design; Telecommunications; Branch-and-cut algorithm

Abstract :

[en] We consider the network design problem which consists in determining at minimum cost a 2-edge connected network such that the shortest cycle (a “ring”) to which each edge belongs, does not exceed a given length K. We identify a class of inequalities, called cycle inequalities, valid for the problem and show that these inequalities together with the so-called cut inequalities yield an integer programming formulation of the problem in the space of the natural design variables. We then study the polytope associated with that problem and describe further classes of valid inequalities. We give necessary and sufficient conditions for these inequalities to be facet defining. We study the separation problem associated with these inequalities. In particular, we show that the cycle inequalities can be separated in polynomial time when K≤4. We develop a Branch-and-Cut algorithm based on these results and present extensive computational results.

Disciplines :

Quantitative methods in economics & management

Author, co-author :

Fortz, Bernard ; Université de Liège - ULiège > HEC Liège Research > HEC Liège Research: Business Analytics & Supply Chain Mgmt

Mahjoub, A.R.

McCormick, S.T.

Pesneau, P.

Language :

English

Title :

Two-edge connected subgraphs with bounded rings: Polyhedral results and Branch-and-Cut

Publication date :

2006

Journal title :

Mathematical Programming

ISSN :

0025-5610

eISSN :

1436-4646

Volume :

105

Issue :

Pages :

85-111

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://www.scopus.com/inward/record.uri?eid=2-s2.0-28244502056&doi=10.1007%2fs10107-005-0576-5&partnerID=40&md5=e32abc7f39407d3b2a5121d086f7b473

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Bibliography

Baïou, M., Barahona, F., Mahjoub, A.R.: Separation of Partition Inequalities. Mathematics of Operations Research 25 (2), 243-254, May 2000
Barahona, F.: Separating from the dominant of the spanning tree polytope. Op. Research Letters 12, 201-203 (1992)
Barahona, F., Mahjoub, A.R.: On two-connected subgraph polytopes. Discrete Mathematics 147, 19-34 (1995)
Chopra, S.: The k-edge connected spanning subgraph polyhedron. SIAM Journal on Discrete Mathematics 7, 245-259 (1994)
Cunningham W.H.: Optimal attack and reinforcement of a network. Journal of ACM 32, 549-561 (1985)
DidiBiha, M., Mahjoub, A.R.: k-edge connected polyhedra on series-parallel graphs. Operations Research Letters 19, 71-78 (1996)
Fortz B.: Design of Survivable Networks with Bounded Rings. Vol. 2 Network Theory and Applications. Kluwer Academic Publishers, 2000
Fortz, B., Labbé, M., Maffioli, F.: Solving the Two-Connected Network with Bounded Meshes Problem. Operations Research, 48 (6), 866-877 November-December 2000
Fortz B., Labbé M.: Polyhedral results for two-connected networks with bounded rings. Mathematical Programming 93 (1), 27-54 2002
Fortz, B., Mahjoub, A.R., McCormick, S.T., Pesneau, P.: Two-edge connected subgraphs with bounded rings: Polyhedral results and Branch-and-Cut. Working paper 98/03 Institut d'Administration et de Gestion Universtié Catholique de Louvain, Belgique, 2003
Fortz, B., Labbé, M.: Two-connected networks with rings of bounded cardinality. Computational Optimization and Applications 27, 123-148 2004
Goldberg, A.V., Tarjan, R.E.: A New Approach to the Maximum-Flow Problem. Journal of the Association for Computing Machinery 35 (4), 921-940, October 1988
Gomory, R.E., Hu, T.C.: Multi-Terminal Network Flows. SIAM Journal on Applied Mathematics 9 (4), 551-570, December 1961
Gourdin, E., Liau, B.: Personnal Communication 2003
Grötschel, M., Monma, C.L., Stoer, M.: Design of Survivable Networks, chapter 10, pp. 617-672. Handbooks in Operations Research and Management Science. Elsevier, North-Holland Amsterdam. 1995
Gusfield, D.: Very Simple Methods for All Pairs Network Flow Analysis. SIAM Journal on Computing 19 (1), 143-155 February 1990
Hao, J., Orlin, J. B.: A faster algorithm for finding the minimum cut in a graph. Proc. of 3rd ACM-SIAM Symp. on Discrete Algorithms 1992, pp. 165-174
Itai, A., Perl, Y., Shiloach, Y.: The Complexity of Finding Maximum Disjoint Paths with Length Constraints. Networks 12, 277-286 (1982)
Kerivin, H., Mahjoub, A.R.: Design of Survivable Networks: A Survey. To appear in Networks 2004
Ladányi, L., Ralphs, T.K., Trotter, L.E.: Computational Combinatorial Optimization: Optimal or Provably Near-Opimal Solutions. Branch Cut and Price: Sequential and Parallel 223-260. Lecture Notes in Computer Science. Springer-Verlag, September 2001
Mahjoub, A.R.: Two-edge connected spanning subgraphs and polyhedra. Mathematical Programming 64, 199-208 1994
McCormick, S.T.: Personnal Communication 2001
Tsong-Ho Wu.: Fiber Network Service Survivability. Artech House Inc. 1992
Williamson, D.P.: Lecture Notes on Approximation Algorithms. IBM Research Division 1999