Search results for "PACKING PROBLEMS"

showing 10 items of 11 documents

A GRASP algorithm for the container stowage slot planning problem

2016

This work presents a generalization of the Slot Planning Problem which raises when the liner shipping industry needs to plan the placement of containers within a vessel (stowage planning). State-of-the-art stowage planning relies on a heuristic decomposition where containers are first distributed in clusters along the vessel. For each of those clusters a specific position for each container must be found. Compared to previous studies, we have introduced two new features: the explicit handling of rolled out containers and the inclusion of separations rules for dangerous cargo. We present a novel integer programming formulation and a Greedy Randomized Adaptive Search Procedure (GRASP) to solv…

EngineeringOperations researchHeuristic (computer science)Container vessel stowage planning0211 other engineering and technologiesTransportation02 engineering and technologyManagement Science and Operations ResearchSHIPSOPERATIONSNUMBERGRASP0202 electrical engineering electronic engineering information engineeringHeuristic algorithmsLOADING PROBLEMBusiness and International ManagementInteger programmingREDUCEGreedy randomized adaptive search procedureCivil and Structural EngineeringSlot planningECONOMICS021103 operations researchbusiness.industryGRASPSHIFTSInteger programmingREACTIVE GRASPENGINEERINGPACKING PROBLEMSPacking problemsContainer (abstract data type)StowageBenchmark (computing)020201 artificial intelligence & image processingbusinessSETTransportation Research Part E: Logistics and Transportation Review
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Stabilized branch-price-and-cut for the commodity-constrained split delivery vehicle routing problem

2019

Abstract In the commodity-constrained split delivery vehicle routing problem (C-SDVRP), customer demands are composed of sets of different commodities. The C-SDVRP asks for a minimum-distance set of routes such that all customer demands are met and vehicle capacities are respected. Moreover, whenever a commodity is delivered by a vehicle to a customer, the entire amount requested by this customer must be provided. Different commodities demanded by one customer, however, can be delivered by different vehicles. Thus, the C-SDVRP is a relaxation of the capacitated vehicle routing problem and a restriction of the split delivery vehicle routing problem. For its exact solution, we propose a branc…

050210 logistics & transportationMathematical optimization021103 operations researchInformation Systems and ManagementGeneral Computer ScienceComputer scienceDelivery vehicle05 social sciences0211 other engineering and technologies02 engineering and technologyManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringPacking problemsModeling and Simulation0502 economics and businessVehicle routing problemColumn generationEuropean Journal of Operational Research
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Regular packings on periodic lattices.

2011

We investigate the problem of packing identical hard objects on regular lattices in d dimensions. Restricting configuration space to parallel alignment of the objects, we study the densest packing at a given aspect ratio X. For rectangles and ellipses on the square lattice as well as for biaxial ellipsoids on a simple cubic lattice, we calculate the maximum packing fraction \phi_d(X). It is proved to be continuous with an infinite number of singular points X^{\rm min}_\nu, X^{\rm max}_\nu, \nu=0, \pm 1, \pm 2,... In two dimensions, all maxima have the same height, whereas there is a unique global maximum for the case of ellipsoids. The form of \phi_d(X) is discussed in the context of geomet…

PhysicsStatistical Mechanics (cond-mat.stat-mech)Aspect ratioGeometrical frustrationMathematical analysisFOS: Physical sciencesGeneral Physics and AstronomyContext (language use)Mathematical Physics (math-ph)Atomic packing factorSquare latticePacking problemsConfiguration spaceMaximaCondensed Matter - Statistical MechanicsMathematical PhysicsPhysical review letters
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Packing a Trunk

2003

We report on a project with a German car manufacturer. The task is to compute (approximate) solutions to a specific large-scale packing problem. Given a polyhedral model of a car trunk, the aim is to pack as many identical boxes of size 4 × 2 × 1 units as possible into the interior of the trunk. This measure is important for car manufacturers, because it is a standard in the European Union.

CombinatoricsPacking problemsMeasure (data warehouse)Linear programmingPolytope modelmedia_common.cataloged_instanceEuropean unionGreedy algorithmInteger programmingAlgorithmTrunkMathematicsmedia_common
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A branch & bound algorithm for cutting and packing irregularly shaped pieces

2013

Abstract Cutting and packing problems involving irregular shapes, usually known as Nesting Problems, are common in industries ranging from clothing and footwear to furniture and shipbuilding. Research publications on these problems are relatively scarce compared with other cutting and packing problems with rectangular shapes, and are focused mostly on heuristic approaches. In this paper we make a systematic study of the problem and develop an exact Branch & Bound Algorithm. The initial existing mixed integer formulations are reviewed, tested and used as a starting point to develop a new and more efficient formulation. We also study several branching strategies, lower bounds and procedures f…

Economics and EconometricsMathematical optimizationBranch and boundComputer scienceHeuristic (computer science)HeuristicBranch and priceManagement Science and Operations ResearchGeneral Business Management and AccountingIndustrial and Manufacturing EngineeringPacking problemsPoint (geometry)Node (circuits)AlgorithmBranch and cutInteger (computer science)International Journal of Production Economics
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Trunk Packing Revisited

2007

For trunk packing problems only few approximation schemes are known, mostly designed for the European standard DIN 70020 [6] with equally sized boxes [8, 9, 11, 12]. In this paper two discretized approaches for the US standard SAE J1100 [10] are presented, which make use of different box sizes. An exact branch-and-bound algorithm for weighted independent sets on graphs is given, using the special structure of the SAE standard. Another branch-and-bound packing algorithm using linear programs is presented. With these algorithms axis-oriented packings of different box sizes in an arbitrary trunk geometry can be computed efficiently.

Linear programming relaxationCombinatoricsDiscrete mathematicsPacking problemsDiscretizationLinear programmingBranch and priceStructure (category theory)Approximation algorithmBranch and cutMathematics
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Ultrametricity property of energy landscapes of multidisperse packing problems

2009

We consider the problem of finding the densest closed packing of hard disks with proposed different radii in a circular environment, such that the radius of the circumcircle is minimal. The subspace of the quasioptimum configurations of this problem exhibits the property of ultrametricity.

PhysicsPacking problemsProperty (philosophy)Mathematical analysisMathematics::Metric GeometryGeometryAstrophysics::Earth and Planetary AstrophysicsRadiusCircumscribed circleHeat capacityAstrophysics::Galaxy AstrophysicsEnergy (signal processing)Subspace topologyPhysical Review E
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Irregular packing problems: a review of mathematical models

2020

Abstract Irregular packing problems (also known as nesting problems) belong to the more general class of cutting and packing problems and consist of allocating a set of irregular and regular pieces to larger rectangular or irregular containers, while minimizing the waste of material or space. These problems combine the combinatorial hardness of cutting and packing problems with the computational difficulty of enforcing the geometric non-overlap and containment constraints. Unsurprisingly, nesting problems have been addressed, both in the scientific literature and in real-world applications, by means of heuristic and metaheuristic techniques. However, more recently a variety of mathematical …

050210 logistics & transportationMathematical optimization021103 operations researchInformation Systems and ManagementGeneral Computer ScienceMathematical modelHeuristicComputer science05 social sciences0211 other engineering and technologies02 engineering and technologyManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringField (computer science)Set (abstract data type)Packing problemsModeling and Simulation0502 economics and businessNesting (computing)PLANEJAMENTO DA PRODUÇÃOMetaheuristic
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A GRASP ALGORITHM FOR THE CONTAINER LOADING PROBLEM WITH MULTI-DROP CONSTRAINTS

2015

This paper studies a variant of the container loading problem in which to the classical geometric constraints of packing problems we add other conditions appearing in practical problems, the multi-drop constraints. When adding multi-drop constraints, we demand that the relevant boxes must be available, without rearranging others, when each drop-off point is reached. We present first a review of the different types of multi-drop constraints that appear in literature. Then we propose a GRASP algorithm that solves the different types of multi-drop constraints and also includes other types of realistic constraints such as full support of the boxes and load bearing strength. The computational re…

Mathematical optimizationcontainer loadingmulti-dropComputer sciencelcsh:MathematicsDrop (liquid)GRASPheuristicsManagement Science and Operations Researchlcsh:QA1-939Load bearingPacking problemsGRASPHeuristicsload-bearing strengthAlgorithmPesquisa Operacional
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Constructive procedures to solve 2-dimensional bin packing problems with irregular pieces and guillotine cuts

2015

Abstract This paper presents an approach for solving a new real problem in cutting and packing. At its core is an innovative mixed integer programme model that places irregular pieces and defines guillotine cuts. The two-dimensional irregular shape bin packing problem with guillotine constraints arises in the glass cutting industry, for example, the cutting of glass for conservatories. Almost all cutting and packing problems that include guillotine cuts deal with rectangles only, where all cuts are orthogonal to the edges of the stock sheet and a maximum of two angles of rotation are permitted. The literature tackling packing problems with irregular shapes largely focuses on strip packing i…

Mathematical optimizationInformation Systems and ManagementBin packing problemStrategy and ManagementManagement Science and Operations ResearchComputer Science::Computational GeometryHybrid algorithmConstructiveBinPacking problemsCutting stock problemRectangleInteger (computer science)Mathematics
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