Search results for "Mixed graph"

showing 10 items of 12 documents

The periodic rural postman problem with irregular services on mixed graphs

2019

Abstract In this paper, we deal with an extension of the rural postman problem in which some links of a mixed graph must be traversed a given number of times over a time horizon. These links represent entities that must be serviced a specified number of times in some subsets of days (or periods) of the time horizon. The aim is to design a set of minimum-cost tours, one for each day/period of the time horizon, that satisfy the service requirements. We refer to this problem as the periodic rural postman problem with irregular services (PRPP–IS). Some practical applications of the problem can be found in road maintenance operations and road network surveillance, for example. In order to solve …

050210 logistics & transportationService (systems architecture)Mathematical optimization021103 operations researchInformation Systems and ManagementGeneral Computer ScienceComputer science05 social sciences0211 other engineering and technologiesMixed graphTime horizon02 engineering and technologyExtension (predicate logic)Management Science and Operations ResearchIndustrial and Manufacturing EngineeringSet (abstract data type)Modeling and Simulation0502 economics and businessPeriodic graph (geometry)Routing (electronic design automation)Branch and cutArc routingEuropean Journal of Operational Research
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A comparison of two different formulations for Arc Routing Problems on Mixed graphs

2006

[EN] Arc routing problems on mixed graphs have been modelled in the literature either using just one variable per edge or associating to each edge two variables, each one representing its traversal in the corresponding direction. In this paper, and using the mixed general routing problem as an example, we compare theoretical and computationally both formulations as well as the lower bounds obtained from them using Linear Programming based methods. Extensive computational experiments, including some big and newly generated random instances, are presented.

Arc routingGeneral Computer ScienceLinear programmingMixed Chinese postman problemMixed graphMixed rural postman problemManagement Science and Operations ResearchRoute inspection problemTree traversalModeling and SimulationEnhanced Data Rates for GSM EvolutionRouting (electronic design automation)Mixed general routing problemMATEMATICA APLICADAAlgorithmArc routingMathematicsVariable (mathematics)
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A Potential Field Function for Overlapping Point Set and Graph Cluster Visualization

2015

In this paper we address the problem of visualizing overlapping sets of points with a fixed positioning in a comprehensible way. A standard visualization technique is to enclose the point sets in isocontours generated by bounding a potential field function. The most commonly used functions are various approximations of the Gaussian distribution. Such an approach produces smooth and appealing shapes, however it may produce an incorrect point nesting in generated regions, e.g. some point is contained inside a foreign set region. We introduce a different potential field function that keeps the desired properties of Gaussian distribution, and in addition guarantees that every point belongs to a…

Discrete mathematicsComputer sciencebusiness.industryGaussianGraph of a functionMixed graphFunction (mathematics)Strength of a graphGraphSet (abstract data type)symbols.namesakesymbolsGraph (abstract data type)Point (geometry)Artificial intelligencebusinessAlgorithm
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The mixed general routing polyhedron

2003

[EN] In Arc Routing Problems, ARPs, the aim is to find on a graph a minimum cost traversal satisfying some conditions related to the links of the graph. Due to restrictions to traverse some streets in a specified way, most applications of ARPs must be modeled with a mixed graph. Although several exact algorithms have been proposed, no polyhedral investigations have been done for ARPs on a mixed graph. In this paper we deal with the Mixed General Routing Problem which consists of finding a minimum cost traversal of a given link subset and a given vertex subset of a mixed graph. A formulation is given that uses only one variable for each link (edge or arc) of the graph. Some properties of the…

Discrete mathematicsGeneral MathematicsArc RoutingMixed graphFacetsPolyhedral combinatoricsRural Postman Problemlaw.inventionGeneral Routing ProblemCombinatoricsTree traversalMixed Chinese Postman ProblemlawroutingGraph traversalGraph (abstract data type)Destination-Sequenced Distance Vector routingMATEMATICA APLICADACircle graphArc routingSoftwareMathematicsofComputing_DISCRETEMATHEMATICSMathematicsPolyhedral graph
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A GRASP heuristic for the mixed Chinese postman problem

2002

Abstract Arc routing problems (ARPs) consist of finding a traversal on a graph satisfying some conditions related to the links of the graph. In the Chinese postman problem (CPP) the aim is to find a minimum cost tour (closed walk) traversing all the links of the graph at least once. Both the Undirected CPP, where all the links are edges that can be traversed in both ways, and the Directed CPP, where all the links are arcs that must be traversed in a specified way, are known to be polynomially solvable. However, if we deal with a mixed graph (having edges and arcs), the problem turns out to be NP -hard. In this paper, we present a heuristic algorithm for this problem, the so-called Mixed CPP…

Information Systems and ManagementGeneral Computer ScienceHeuristic (computer science)GRASPMixed graphManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringCombinatoricsTree traversalRoute inspection problemModeling and SimulationGraph (abstract data type)Arc routingGreedy randomized adaptive search procedureMathematicsofComputing_DISCRETEMATHEMATICSMathematicsEuropean Journal of Operational Research
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The Hierarchical Mixed Rural Postman Problem: Polyhedral analysis and a branch-and-cut algorithm

2017

[EN] The Hierarchical Mixed Rural Postman Problem is defined on a mixed graph where arcs and edges that require a service are divided into clusters' that have to be serviced in a hierarchical order. The problem generalizes the Mixed Rural Postman Problem and thus is NP-hard. In this paper, we provide a polyhedral analysis of the problem and propose a branch-and-cut algorithm for its solution based on the introduced classes of valid inequalities. Extensive computational experiments are reported on benchmark instances. The exact approach allows to find the optimal solutions in less than 1 hour for instances with up to 999 vertices, 2678 links, and five clusters.

Information Systems and ManagementHierarchical Routing ProblemsGeneral Computer Science0211 other engineering and technologiesMixed graph02 engineering and technologyManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringCombinatorics0502 economics and businessOrder (group theory)Mixed Rural Postman ProblemPolyhedral analysisBranch-and-cut Hierarchical Routing Problems Mixed Rural Postman Problem Polyhedral analysis Modeling and Simulation Management Science and Operations Research Information Systems and ManagementMathematicsDiscrete mathematics050210 logistics & transportation021103 operations research05 social sciencesBranch-and-cutModeling and SimulationBenchmark (computing)Polyhedral analysisMATEMATICA APLICADABranch and cutAlgorithmEuropean Journal of Operational Research
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Heuristics for the Mixed Rural Postman Problem

2000

Abstract The Rural Postman Problem on a mixed graph (MRPP) consists of finding a minimum cost tour which traverses, at least once, the arcs and edges of a given subset of the arcs and edges of the graph. This problem is known to be NP-hard. This paper presents two heuristic approaches to solve it. An approximate algorithm based on the resolution of some flow and matching problems and a tabu search implementation is presented. The tabu search algorithm seeks high-quality tours by means of a switching mechanism in an intensification phase and two levels of diversification. Computational results are presented to assess the merits of the method. Scope and purpose Routing Problems arise in sever…

Mathematical optimizationGeneral Computer ScienceComputer scienceHeuristicMixed graphManagement Science and Operations ResearchFlow networkGraphTabu searchRoute inspection problemModeling and SimulationGraph (abstract data type)HeuristicsArc routingMetaheuristicComputers & Operations Research
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Two-phase branch-and-cut for the mixed capacitated general routing problem

2015

The Mixed Capacitated General Routing Problem (MCGRP) is defined over a mixed graph, for which some vertices must be visited and some links must be traversed at least once. The problem consists of determining a set of least-cost vehicle routes that satisfy this requirement and respect the vehicle capacity. Few papers have been devoted to the MCGRP, in spite of interesting real-world applications, prevalent in school bus routing, mail delivery, and waste collection. This paper presents a new mathematical model for the MCGRP based on two-index variables. The approach proposed for the solution is a two-phase branch-and-cut algorithm, which uses an aggregate formulation to develop an effective …

Mathematical optimizationInformation Systems and ManagementGeneral Computer ScienceMixed graphManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringSet (abstract data type)Bounding overwatchModeling and SimulationBenchmark (computing)Destination-Sequenced Distance Vector routingRouting (electronic design automation)Integer programmingBranch and cutMathematicsEuropean Journal of Operational Research
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Lower and upper bounds for the mixed capacitated arc routing problem

2006

This paper presents a linear formulation, valid inequalities, and a lower bounding procedure for the mixed capacitated arc routing problem (MCARP). Moreover, three constructive heuristics and a memetic algorithm are described. Lower and upper bounds have been compared on two sets of randomly generated instances. Computational results show that the average gaps between lower and upper bounds are 0.51% and 0.33%, respectively.

Mathematical optimizationLower boundGeneral Computer Science0211 other engineering and technologiesMixed graphHeuristic02 engineering and technologyManagement Science and Operations ResearchUpper and lower boundsBounding overwatchMixed graph0502 economics and businessCapacitated arc routing problemConstructive heuristicMathematics050210 logistics & transportation021103 operations researchWaste collectionHeuristic05 social sciencesMemetic algorithm[INFO.INFO-RO]Computer Science [cs]/Operations Research [cs.RO]Cutting plane[INFO.INFO-MO]Computer Science [cs]/Modeling and SimulationModeling and SimulationMemetic algorithmArc routingCutting-plane method
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The Rural Postman Problem on mixed graphs with turn penalties

2002

In this paper we deal with a problem which generalizes the Rural Postman Problem defined on a mixed graph (MRPP). The generalization consists of associating a non-negative penalty to every turn as well as considering the existence of forbidden turns. This new problem fits real-world situations more closely than other simpler problems. A solution tour must traverse all the requiring service arcs and edges of the graph while not making forbidden turns. Its total cost will be the sum of the costs of the traversed arcs and edges together with the penalties associated with the turns done. The Mixed Rural Postman Problem with Turn Penalties (MRPPTP) consists of finding such a tour with a total mi…

Mathematical optimizationTraverseGeneral Computer SciencePolynomial transformationTotal costMixed graphManagement Science and Operations ResearchTravelling salesman problemModeling and SimulationComputer Science::Data Structures and AlgorithmsHeuristicsArc routingMetaheuristicMathematicsComputers & Operations Research
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