A new branch-and-cut approach for the generalized regenerator location problem

In optical networks, a signal can only travel a maximum distance (called optical reach) before its quality deteriorates, needing regenerations by installing regenerators at network nodes. Such an optical reach is an important property of a transmission system, which is a necessary ingredient for ena...

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Published in	Annals of operations research Vol. 295; no. 1; pp. 229 - 255
Main Authors	Li, Xiangyong, Aneja, Y. P.
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2020 Springer Springer Nature B.V
Subjects	Branch and bound algorithms Business and Management Combinatorics Equipment and supplies Fiber optic networks Heuristic Inequality Innovations Location Management Nodes Operations research Operations Research/Decision Theory Optical communication Optical properties Original Research Regenerators Repeaters (Electronics) Site selection Technology application Theory of Computation China Regenerator placement Optical network design Facets Branch and cut Location
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Abstract	In optical networks, a signal can only travel a maximum distance (called optical reach) before its quality deteriorates, needing regenerations by installing regenerators at network nodes. Such an optical reach is an important property of a transmission system, which is a necessary ingredient for enabling optical bypass and thus significantly affects optical network design. In this paper, we study the generalized regenerator location problem (GRLP) where we are given a set S of candidate locations for regenerator placement and a set T of network nodes required to communicate with each other. The GRLP is to find a minimal number of network nodes for regenerator placement, such that for each node pair in T, there exists a path of which no subpath without internal regenerators has a length greater than the given optical reach. Starting with an existing set covering formulation of the problem, we first study the facial structure of the associated polytope. Making use of these polyhedral results, we then present a new branch-and-cut solution approach to solve the GRLP to optimality. With benchmark instances and newly generated instances, we finally evaluate our approach and compare it with an existing method. Computational results demonstrate efficacy of our approach.
AbstractList	In optical networks, a signal can only travel a maximum distance (called optical reach) before its quality deteriorates, needing regenerations by installing regenerators at network nodes. Such an optical reach is an important property of a transmission system, which is a necessary ingredient for enabling optical bypass and thus significantly affects optical network design. In this paper, we study the generalized regenerator location problem (GRLP) where we are given a set S of candidate locations for regenerator placement and a set T of network nodes required to communicate with each other. The GRLP is to find a minimal number of network nodes for regenerator placement, such that for each node pair in T, there exists a path of which no subpath without internal regenerators has a length greater than the given optical reach. Starting with an existing set covering formulation of the problem, we first study the facial structure of the associated polytope. Making use of these polyhedral results, we then present a new branch-and-cut solution approach to solve the GRLP to optimality. With benchmark instances and newly generated instances, we finally evaluate our approach and compare it with an existing method. Computational results demonstrate efficacy of our approach.
Audience	Academic
Author	Aneja, Y. P. Li, Xiangyong
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Cites_doi	10.1002/net.20366 10.1016/j.osn.2014.09.002 10.1016/j.ejor.2016.07.032 10.1007/978-3-642-38189-8_11 10.1287/ijoc.2014.0619 10.1287/ijoc.2013.0589 10.1007/s10479-006-0047-2 10.1109/TNET.2012.2186462 10.1007/s00186-008-0223-z 10.1287/ijoc.2014.0621 10.1287/opre.1080.0524 10.1109/MCOM.2006.248170 10.1109/GLOCOM.2008.ECP.513 10.1023/A:1024731113866 10.1007/s10479-013-1403-7
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References_xml	– reference: ReingoldEMNievergeltJDeoNCombinatorial algorithms: Theory and practice1977Upper Saddle RiverPrentice Hall College Div – reference: Sen, A., Murthy, S., & Bandyopadhyay, S. (2008). On sparse placement of regenerator nodes in translucent optical network. In Proceedings of the 2008 IEEE GLOBECOM conference, New Orleans, Louisiana, USA, IEEE, Piscataway, NJ (pp. 1–6). – reference: Fischetti, M., Leitner, M., Ljubić, I., Luipersbeck, M., Monaci, M., Resch, M., et al. (2014). Thinning out steiner trees: A node-based model for uniform edge costs. 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Ph.D. thesis, Unpublished doctoral dissertation, University of Windsor, Windsor, Ontario. – reference: AhujaRKMagnantiTLOrlinJBNetwork Flows: Theory, algorithms, and applications1993Upper Saddle, NJPrentice Hall – reference: FügenschuhAFügenschuhMInteger linear programming models for topology optimization in sheet metal designMathematical Methods of Operations Research20086831333110.1007/s00186-008-0223-z – reference: Álvarez-MirandaELjubićIMutzelPFacets of combinatorial optimization: Festschrift for Martin Grötschel, chap. 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Twenty-Second Annual Joint Conference of the IEEE Computer and CommunicationsIEEE Societies20031576586 – reference: HochbaumDSThe pseudoflow algorithm: A new algorithm for the maximum-flow problemOperations Research200856992100910.1287/opre.1080.0524 – reference: SimmonsJMNetwork design in realistic “all-optical” backbone networksIEEE Communications Magazine200644889410.1109/MCOM.2006.248170 – reference: RahmanQBandyopadhyaySAnejaYPOptimal regenerator placement in translucent optical networksOptical Switching and Networking20151513414710.1016/j.osn.2014.09.002 – reference: ChenSLjubićIRaghavanSThe generalized regenerator location problemINFORMS Journal on Computing20152720422010.1287/ijoc.2014.0621 – reference: Li, X., & Aneja, Y. P. (2014). Exact approach for the generalized regenerator location problem. Presentation. The 20th conference of the international federation of operational research societies (IFORS2014), July 13–18, 2014, Barcelona, Spain. – reference: LiXAnejaYPRegenerator location problem: Polyhedral study and effective branch-and-cut algorithmsEuropean Journal of Operational Research2017257254010.1016/j.ejor.2016.07.032 – reference: YetginerEKarasanERegenerator placement and traffic engineering with restoration in GMPLS networksPhotonic Network Communications2003613914910.1023/A:1024731113866 – reference: BorneSGourdinEBernard LiauAMahjoubRDesign of survivable ip-over-optical networksAnnals of Operations Research2006146417310.1007/s10479-006-0047-2 – reference: ChenSLjubićIRaghavanSThe regenerator location problemNetworks201055205220 – reference: ILOG. (2012). ILOG CPLEX 12.4 User’s Manual. 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Snippet	In optical networks, a signal can only travel a maximum distance (called optical reach) before its quality deteriorates, needing regenerations by installing...
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SubjectTerms	Branch and bound algorithms Business and Management Combinatorics Equipment and supplies Fiber optic networks Heuristic Inequality Innovations Location Management Nodes Operations research Operations Research/Decision Theory Optical communication Optical properties Original Research Regenerators Repeaters (Electronics) Site selection Technology application Theory of Computation
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Title	A new branch-and-cut approach for the generalized regenerator location problem
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