Search results for "Hub location problem"

showing 2 items of 2 documents

Branch-and-price-and-cut for a service network design and hub location problem

2015

In the context of combined road-rail freight transport, we study the integrated tactical planning of hub locations and the design of a frequency service network. We consider a number of real-world constraints such as multiple transshipments of requests at hubs, transport time limits for requests, request splitting, and outsourcing possibilities. To our knowledge, the combination of problem features we deal with has not been described before. We present a path-based model and solve it with a branch-and-price-and-cut algorithm. Computational experiments show that large realistic instances from a major German rail freight company can be solved close to optimality within one hour on a standard …

050210 logistics & transportationService (systems architecture)021103 operations researchInformation Systems and ManagementGeneral Computer ScienceOperations researchComputer sciencebusiness.industryBranch and price05 social sciences0211 other engineering and technologiesContext (language use)02 engineering and technologyHub location problemManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringOutsourcingNetwork planning and designModeling and Simulation0502 economics and businessPath (graph theory)Service Network Design Hub Location Intermodal Transport Branch-and-Price-and-CutbusinessSimulationEuropean Journal of Operational Research
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Contributions to Branch-and-Price-and-Cut Algorithms for Routing Problems

2019

This article deals with new exact branch-and-price-and-cut algorithms for the solution of routing problems. Specialized methods for the pickup-and-delivery problem (PDP), the truck-and-trailer routing problem (TTRP), the periodic vehicle routing problem (PVRP) and a service network design and hub location problem (SNDHLP) are presented. We develop a new technique for the acceleration of bidirectional labeling algorithms by a dynamic choice of the merge point. Moreover, for variants of the PDP, the bidirectional labeling can be effectively applied for the first time. In the TTRP, we model the extension to a 2 days planning horizon and the consideration of a quantity-dependent transfer time. …

050210 logistics & transportation021103 operations researchComputer scienceBranch and price05 social sciences0211 other engineering and technologiesTime horizon02 engineering and technologyDynamic choiceHub location problemNetwork planning and design0502 economics and businessVehicle routing problemPeriodic vehicle routing problemColumn generationAlgorithm
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