Search results for "combinatorial"

showing 10 items of 1208 documents

A tabu search algorithm for a two-dimensional non-guillotine cutting problem

2007

In this paper we study a two-dimensional non-guillotine cutting problem, the problem of cutting rectangular pieces from a large stock rectangle so as to maximize the total value of the pieces cut. The problem has many industrial applications whenever small pieces have to be cut from or packed into a large stock sheet. We propose a tabu search algorithm. Several moves based on reducing and inserting blocks of pieces have been defined. Intensification and diversification procedures, based on long-term memory, have been included. The computational results on large sets of test instances show that the algorithm is very efficient for a wide range of packing and cutting problems.

Mathematical optimizationInformation Systems and ManagementGeneral Computer ScienceManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringTabu searchSearch algorithmCutting stock problemModeling and SimulationCombinatorial optimizationRectangleHeuristicsAlgorithmMathematicsEuropean Journal of Operational Research

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A review on discrete diversity and dispersion maximization from an OR perspective

2022

Abstract The problem of maximizing diversity or dispersion deals with selecting a subset of elements from a given set in such a way that the distance among the selected elements is maximized. The definition of distance between elements is customized to specific applications, and the way that the overall diversity of the selected elements is computed results in different mathematical models. Maximizing diversity by means of combinatorial optimization models has gained prominence in Operations Research (OR) over the last two decades, and constitutes nowadays an important area. In this paper, we review the milestones in the development of this area, starting in the late eighties when the first…

Mathematical optimizationInformation Systems and ManagementGeneral Computer ScienceMathematical modelHeuristicComputer scienceMaximizationManagement Science and Operations ResearchRepresentativeness heuristicIndustrial and Manufacturing EngineeringSet (abstract data type)Modeling and SimulationBenchmark (computing)Combinatorial optimizationDiversity (business)European Journal of Operational Research

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Metaheuristics for the linear ordering problem with cumulative costs

2012

The linear ordering problem with cumulative costs (LOPCC) is a variant of the well-known linear ordering problem, in which a cumulative propagation makes the objective function highly non-linear. The LOPCC has been recently introduced in the context of mobile-phone telecommunications. In this paper we propose two metaheuristic methods for this NP-hard problem. The first one is based on the GRASP methodology, while the second one implements an Iterated Greedy-Strategic Oscillation procedure. We also propose a post-processing based on Path Relinking to obtain improved outcomes. We compare our methods with the state-of-the-art procedures on a set of 218 previously reported instances. The compa…

Mathematical optimizationInformation Systems and ManagementGeneral Computer ScienceOscillationGRASPContext (language use)Management Science and Operations ResearchIndustrial and Manufacturing EngineeringSet (abstract data type)Iterated functionModeling and SimulationPath (graph theory)Combinatorial optimizationMetaheuristicMathematicsEuropean Journal of Operational Research

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Multi-start methods for combinatorial optimization

2013

Abstract Multi-start methods strategically sample the solution space of an optimization problem. The most successful of these methods have two phases that are alternated for a certain number of global iterations. The first phase generates a solution and the second seeks to improve the outcome. Each global iteration produces a solution that is typically a local optimum, and the best overall solution is the output of the algorithm. The interaction between the two phases creates a balance between search diversification (structural variation) and search intensification (improvement), to yield an effective means for generating high-quality solutions. This survey briefly sketches historical devel…

Mathematical optimizationInformation Systems and ManagementOptimization problemGeneral Computer ScienceComputer scienceGRASPSample (statistics)Management Science and Operations ResearchIndustrial and Manufacturing EngineeringOutcome (probability)Field (computer science)Local optimumModeling and SimulationCombinatorial optimizationMetaheuristicEuropean Journal of Operational Research

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An ILS-Based Metaheuristic for the Stacker Crane Problem

2012

[EN] In this paper we propose a metaheuristic algorithm for the Stacker Crane Problem. This is an NP-hard arc routing problem whose name derives from the practical problem of operating a crane. Here we present a formulation and a lower bound for this problem and propose a metaheuristic algorithm based on the combination of a Multi-start and an Iterated Local Search procedures. Computational results on a large set of instances are presented.

Mathematical optimizationIterated local searchComputer scienceStackerComputerApplications_COMPUTERSINOTHERSYSTEMSMetaheuristicsUpper and lower boundsParallel metaheuristicDirected rural postman problemCombinatorial OptimizationCombinatorial optimizationLarge set (combinatorics)MATEMATICA APLICADAMetaheuristicArc routingAlgorithm

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Branch-and-Cut

2010

This chapter focuses on the approach for solving the LOP to optimality which can currently be seen as the most successful one. It is a branch-and-bound algorithm, where the upper bounds are computed using linear programming relax- ations.

Mathematical optimizationLinear programmingSeparation algorithmComputer scienceCombinatorial optimization problemBranch and cut

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Multi-Start Methods

2006

Heuristic search procedures that aspire to find global optimal solutions to hard combinatorial optimization problems usually require some type of diversification to overcome local optimality. One way to achieve diversification is to re-start the procedure from a new solution once a region has been explored. In this chapter we describe the best known multi-start methods for solving optimization problems. We propose classifying these methods in terms of their use of randomization, memory and degree of rebuild. We also present a computational comparison of these methods on solving the linear ordering problem in terms of solution quality and diversification power.

Mathematical optimizationOptimization problemDegree (graph theory)Computer sciencemedia_common.quotation_subjectCombinatorial optimization problemQuality (business)Diversification (marketing strategy)Linear orderingGlobal optimalmedia_common

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Advanced Multi-start Methods

2010

Heuristic search procedures that aspire to find globally optimal solutions to hard combinatorial optimization problems usually require some type of diversification to overcome local optimality. One way to achieve diversification is to re-start the procedure from a new solution once a region has been explored. In this chapter we describe the best known multi-start methods for solving optimization problems. We propose classifying these methods in terms of their use of randomization, memory, and degree of rebuild. We also present a computational comparison of these methods on solving the maximum diversity problem in terms of solution quality and diversification power.

Mathematical optimizationOptimization problemDegree (graph theory)media_common.quotation_subjectCombinatorial optimization problemQuality (business)Diversification (marketing strategy)Mathematicsmedia_common

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Hybridizing the cross-entropy method: An application to the max-cut problem

2009

Cross-entropy has been recently proposed as a heuristic method for solving combinatorial optimization problems. We briefly review this methodology and then suggest a hybrid version with the goal of improving its performance. In the context of the well-known max-cut problem, we compare an implementation of the original cross-entropy method with our proposed version. The suggested changes are not particular to the max-cut problem and could be considered for future applications to other combinatorial optimization problems.

Mathematical optimizationOptimization problemGeneral Computer ScienceQuadratic assignment problemMaximum cutCross-entropy methodManagement Science and Operations ResearchCross entropyModeling and SimulationCombinatorial optimizationCombinatorial methodMetaheuristicAlgorithmMathematicsComputers & Operations Research

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Scatter Search and Path Relinking

2011

Scatter search (SS) and path relinking (PR) are evolutionary methods that have been successfully applied to a wide range of hard optimization problems. The fundamental concepts and principles of the methods were first proposed in the 1970s and 1980s, and were based on formulations, dating back to the 1960s, for combining decision rules and problem constraints. The methods use strategies for search diversification and intensification that have proved effective in a variety of optimization problems and that have sometimes been embedded in other evolutionary methods to yield improved performance. This paper examines the scatter search and path relinking methodologies from both conceptual and p…

Mathematical optimizationRange (mathematics)Optimization problemComputational Theory and MathematicsArtificial IntelligencePath (graph theory)Combinatorial optimizationParticle swarm optimizationDecision ruleMulti-swarm optimizationMetaheuristicComputer Science ApplicationsMathematicsInternational Journal of Swarm Intelligence Research

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