Search results for " Linear programming."

showing 10 items of 18 documents

A more efficient cutting planes approach for the green vehicle routing problem with capacitated alternative fuel stations

2021

AbstractThe Green Vehicle Routing Problem with Capacitated Alternative Fuel Stations assumes that, at each station, the number of vehicles simultaneously refueling cannot exceed the number of available pumps. The state-of-the-art solution method, based on the generation of all feasible non-dominated paths, performs well only with up to 2 pumps. In fact, it needs cloning the paths between every pair of pumps. To overcome this issue, in this paper, we propose new path-based MILP models without cloning paths, for both the scenario with private stations (i.e., owned by the fleet manager) and that with public stations. Then, a more efficient cutting plane approach is designed for addressing both…

050210 logistics & transportationMathematical optimization021103 operations researchControl and OptimizationCloning (programming)Alternative fuel vehicles; Fueling pump reservation; Mixed integer linear programming; Vehicle routing problemComputer science05 social sciences0211 other engineering and technologiesComputational intelligence02 engineering and technologyGreen vehicle routingSet (abstract data type)Alternative fuel vehiclesalternative fuels benchmarking clone cells cloning integer programming pumps sensitivity analysis vehicles fueling pump reservation mixed integer linear programming vehicle routing problemMixed integer linear programmingVehicle routing problem0502 economics and businessPath (graph theory)Benchmark (computing)Sensitivity (control systems)Settore MAT/09 - Ricerca OperativaCutting-plane methodFueling pump reservation
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Determining the best shipper sizes for sending products to customers

2014

A distribution company has to send products, packed into shippers, from the warehouse to retail shops. The number of different shipper types is regarded as a parameter given by the user, who is looking for a balance between transportation costs and stock and procurement costs. The problem is to decide the sizes of the shipper types to keep at the warehouse so as to minimize the cost of meeting the forecasted demand over the planning horizon. In this paper, we describe an integer linear programming formulation for the problem and obtaining feasible solutions. Other models, based on multiknapsack and p-median and facility location models, are for obtaining lower bounds. We study several ways …

050210 logistics & transportationMathematical optimization021103 operations researchOperations researchComputer scienceStrategy and Management05 social sciences0211 other engineering and technologiesTime horizon02 engineering and technologyManagement Science and Operations ResearchReduced modelFacility location problemComputer Science ApplicationsProcurementManagement of Technology and Innovation0502 economics and businessBusiness and International ManagementHeuristicsMetaheuristicInteger programmingInteger linear programming formulationInternational Transactions in Operational Research
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On Extensional Fuzzy Sets Generated by Factoraggregation

2014

We develop the concept of a general factoraggregation operator introduced by the authors on the basis of an equivalence relation and applied in two recent papers for analysis of bilevel linear programming solving parameters. In the paper this concept is generalized by using a fuzzy equivalence relation instead of the crisp one. We show how the generalized factoraggregation can be used for construction of extensional fuzzy sets and consider approximations of arbitrary fuzzy sets by extensional ones.

AlgebraOperator (computer programming)Basis (linear algebra)Approximations of πFuzzy setEquivalence relationBilevel linear programmingExtensional definitionFuzzy equivalence relationMathematics
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Solving type-2 Assembly Line Balancing Problem with Fuzzy Binary Linear Programming

2013

Assembly Line Balancing Problem Fuzzy Binary Linear ProgrammingAssembly Line Balancing Problem; Fuzzy Binary Linear Programming
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EABOT – Energetic analysis as a basis for robust optimization of trigeneration systems by linear programming

2008

Abstract The optimization of synthesis, design and operation in trigeneration systems for building applications is a quite complex task, due to the high number of decision variables, the presence of irregular heat, cooling and electric load profiles and the variable electricity price. Consequently, computer-aided techniques are usually adopted to achieve the optimal solution, based either on iterative techniques, linear or non-linear programming or evolutionary search. Large efforts have been made in improving algorithm efficiency, which have resulted in an increasingly rapid convergence to the optimal solution and in reduced calculation time; robust algorithm have also been formulated, ass…

EngineeringMathematical optimizationLinear programmingElectrical loadRenewable Energy Sustainability and the Environmentbusiness.industryEnergy Engineering and Power TechnologyRobust optimizationThermoeconomicsThermal energy storageFuel TechnologyNuclear Energy and EngineeringRobustness (computer science)Algorithmic efficiencyTrigeneration Optimization Linear programming Thermoeconomics Multi-objectivebusinessMATLABcomputerSimulationcomputer.programming_languageEnergy Conversion and Management
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ROBUST CONTROL STRATEGIES FOR MULTI—INVENTORY SYSTEMS WITH AVERAGE FLOW CONSTRAINTS

2006

Abstract In this paper we consider multi—inventory systems in presence of uncertain demand. We assume that i) demand is unknown but bounded in an assigned compact set and ii) the control inputs (controlled flows) are subject to assigned constraints. Given a long—term average demand, we select a nominal flow that feeds such a demand. In this context, we are interested in a control strategy that meets at each time all possible current demands and achieves the nominal flow in the average. We provide necessary and sufficient conditions for such a strategy to exist and we characterize the set of achievable flows. Such conditions are based on linear programming and thus they are constructive. In …

Inventory controlMathematical optimizationManufacturing systemLinear programmingBounded disturbancesBounded disturbanceBounded disturbances; Inventory control; Linear programming; Manufacturing systems; Robust controlRobust controlContext (language use)General MedicineDynamic problemFlow (mathematics)Inventory control Robust control Bounded disturbances Manufacturing systems Linear programming.Control and Systems EngineeringControl theoryBounded functionLinear programmingSettore MAT/09 - Ricerca OperativaManufacturing systemsElectrical and Electronic EngineeringSpecial caseRobust controlMathematicsInventory control
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An Analysis of Bilevel Linear Programming Solving Parameters Based on Factoraggregation Approach

2013

We introduce the notion of factoraggregation,which is a special construction of general aggregation operators, and apply it for an analysis of optimal solution parameters for bilevel linear programming problems. The aggregation observes lower level objective functions considering the classes of equivalence generated by an objective function on the upper level. The proposed method is illustrated with numerical and graphical examples.

Mathematical optimizationEquivalence (formal languages)Membership functionBilevel linear programmingMathematics
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Involving fuzzy orders for multi-objective linear programming

2012

This paper presents a solution approach for multi-objective linear programming problem. We propose to involve fuzzy order relations to describe the objective functions where in ”classical” fuzzy approach the membership functions which illustrate how far the concrete point is from the solution of individual problem are studied. Further the global fuzzy order relation is constructed by aggregating the individual fuzzy order relations. Thus the global fuzzy relation contains the information about all objective functions and in the last step we find a maximum in the set of constrains with respect to the global fuzzy order relation. We illustrate this approach by an example.

Mathematical optimizationFuzzy classificationMathematics::General MathematicsFuzzy setmulti-objective linear programmingfuzzy order relationType-2 fuzzy sets and systemsDefuzzificationModeling and SimulationFuzzy mathematicsQA1-939aggregation of fuzzy relationsFuzzy numberFuzzy set operationsMathematicsAnalysisMembership functionMathematicsMathematical Modelling and Analysis
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A choice of bilevel linear programming solving parameters: factoraggregation approach

2013

Our paper deals with the problem of choosing correct parameters for the bilevel linear program- ming solving algorithm proposed by M. Sakawa and I. Nishizaki. We suggest an approach based on fac- toraggregation, which is a specially designed general aggregation operator. The idea of factoraggregation arises from factorization by the equivalence relation generated by the upper level objective function. We prove several important properties of the factorag- gregation result regarding the analysis of param- eters in order to find an optimal solution for the problem. We illustrate the proposed method with some numerical and graphical examples, in particu- lar we consider a modification of the m…

Mathematical optimizationLinear programmingComputer scienceMonotonic functionFuzzy logicMultiobjective linear programming problemOperator (computer programming)Production planningBilevel linear programming problemFactorizationEquivalence relationBoundary value problem:MATHEMATICS::Applied mathematics [Research Subject Categories]General aggregation operator
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OPTIMIZATION OF POLYGENERATION SYSTEMS SERVING A CLUSTER OF BUILDINGS

2012

The optimization of combined energy systems for the production and distribution of warm and cold fluids to civil users is very complex; two possible configurations, i.e. the small single units for individual buildings and the large plants integrated with district heating networks, can be essentially considered, especially in cold climates. Dealing with such a complex problem, involving a very large number of variables, requires efficient algorithms and resolution techniques. The present chapter illustrates a Mixed Integer Linear Program (MILP)1 approach to the optimization of synthesis, design and operation for CHCP-based μ-grids including thermal energy storages. A novel approach is presen…

Mixed Integer Linear Programming Energy saving polygeneration cluster of buildingsSettore ING-IND/10 - Fisica Tecnica Industriale
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