Search results for " optimization."

showing 10 items of 2333 documents

Applying the approximation method PAINT and the interactive method NIMBUS to the multiobjective optimization of operating a wastewater treatment plant

2014

Using an interactive multiobjective optimization method called NIMBUS and an approximation method called PAINT, preferable solutions to a five-objective problem of operating a wastewater treatment plant are found. The decision maker giving preference information is an expert in wastewater treatment plant design at the engineering company Pöyry Finland Ltd. The wastewater treatment problem is computationally expensive and requires running a simulator to evaluate the values of the objective functions. This often leads to problems with interactive methods as the decision maker may get frustrated while waiting for new solutions to be computed. Thus, a newly developed PAINT method is used to spe…

Mathematical optimizationEngineeringOR in natural resourcesControl and OptimizationSpeedupbusiness.industryApplied Mathematicsproductivity and competitivenessManagement Science and Operations ResearchsimulationDecision makerMulti-objective optimizationIndustrial and Manufacturing EngineeringComputer Science ApplicationsSet (abstract data type)Pareto optimalmultiple objective programmingSewage treatmentPlant designbusinessta218Integer (computer science)
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Moving Least Squares Innovative Strategies For Sheet Forming Design

2011

In the last years a great interest in optimization algorithms aimed to design forming processes was demonstrated by many researches. Proper design methodologies to reduce times and costs have to be developed mostly based on computer aided procedures. Response surface methods (RSM) proved their effectiveness in the recent years also for the application in sheet metal forming aiming to reduce the number of numerical simulations. Actually, the main drawback of such method is the number of direct problem to be solved in order to reach good function approximations. A very interesting aspect in RSM application regards the possibility to build response surfaces basing on moving least squares appro…

Mathematical optimizationEngineeringOptimization problemComputer simulationbusiness.industryForming processesFunction approximationSheet metal forming design moving least squares optimizationvisual_artvisual_art.visual_art_mediumCurve fittingMoving least squaresSheet metalbusinessSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneInterpolationAIP Conference Proceedings
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A contribution on the optimization strategies based on moving least squares approximation for sheet metal forming design

2012

Computer-aided procedures to design and optimize forming processes are, nowadays, crucial research topics since industrial interest in costs and times reduction is always increasing. Many researchers have faced this research challenge with various approaches. Response surface methods (RSM) are probably the most known approaches since they proved their effectiveness in the recent years. With a peculiar attention to sheet metal forming process design, RSM should offer the possibility to reduce the number of numerical simulations which in many cases means to reduce design times and complexity. Actually, the number of direct problems (FEM simulations) to be solved in order to reach good functio…

Mathematical optimizationEngineeringOptimization problembusiness.industryMechanical EngineeringForming processesComputer aided optimizationSheet metal formingIndustrial and Manufacturing EngineeringComputer Science ApplicationsReduction (complexity)Function approximationControl and Systems Engineeringvisual_artKey (cryptography)visual_art.visual_art_mediumZoomMoving least squaresMoving least squares methodologySheet metalbusinessSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneSoftware
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Deep Drawing Process Design: A Multi Objective Optimization Approach

2009

In sheet metal forming most of the problems are multi objective problems, generally characterized by conflicting objectives. The definition of proper parameters aimed to prevent both wrinkles and fracture is a typical example of an optimization problem in sheet metal forming characterized by conflicting goals. What is more, nowadays, a great interest would be focused on the availability of a cluster of possible optimal solutions instead of a single one, particularly in an industrial environment. Thus, the design parameters calibration, accomplishing all the objectives, is difficult and sometimes unsuccessful. In order to overcome this drawback a multi-objectives optimization procedure based…

Mathematical optimizationEngineeringOptimization problembusiness.industryMechanical EngineeringProcess designTrial and errorMulti-objective optimizationBlankMechanics of MaterialsGeneral Materials ScienceProcess windowResponse surface methodologyDeep drawingbusinessKey Engineering Materials
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Non-linear optimization of track layouts in loop-sorting-systems

2013

Optimization used for enhancing geometric structures iswell known. Applying obstacles to the shape optimization problemis on the other hand not very common. It requires a fast contact search algorithmand an exact continuous formulation to solve the problem robustly. This paper focuses on combining shape optimization problemswith collision avoidance constraints by which a collision detection algorithmis presented. The presentedmethod is tested against the commercial loop-sorting-system used for sorting of medium sized items. The objective is to minimize price and footprint of the system whilemaintaining its functionality. Contact constraints are in this context important to include as variou…

Mathematical optimizationEngineeringOptimization problembusiness.industrySortingContext (language use)Building and ConstructionVector optimizationControl and Systems EngineeringSearch algorithmCollision detectionShape optimizationMulti-swarm optimizationbusinessCivil and Structural Engineering
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A thermoeconomics-based approach to the integrated optimization of design and operation for decentralised energy systems and variable load conditions

2006

The many comprehensive approaches formulated for the optimization of large industrial energy systems have been rarely applied to small and medium scale units, because of the difficulties in handling a continuously variable energy demand and of the lower margins for energy and emissions saving. Today, the growing interest for decentralised energy systems in the civil sector stimulates major efforts for the optimization of such plants, with a particular focus on the control system and on a management strategy able to exploit the opportunities existing in the free energy market. In this paper a methodology is proposed for the optimization of design and operation of variable demand systems supp…

Mathematical optimizationEngineeringPrimary energybusiness.industryControl engineeringThermoeconomicsGridElectric power systemsymbols.namesakeLagrange multiplierFuel efficiencysymbolsEnergy marketProfitability indexbusiness
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Improving Performance of Evolutionary Algorithms with Application to Fuzzy Control of Truck Backer-Upper System

2013

Published version of an article in the journal: Mathematical Problems in Engineering. Also available from the publisher at: http://dx.doi.org/10.1155/2013/709027 Open access We propose a method to improve the performance of evolutionary algorithms (EA). The proposed approach defines operators which can modify the performance of EA, including Levy distribution function as a strategy parameters adaptation, calculating mean point for finding proper region of breeding offspring, and shifting strategy parameters to change the sequence of these parameters. Thereafter, a set of benchmark cost functions is utilized to compare the results of the proposed method with some other well-known algorithms.…

Mathematical optimizationEngineeringSequenceArticle Subjectbusiness.industryGeneral Mathematicslcsh:MathematicsLévy distributionGeneral EngineeringEvolutionary algorithmfuzzy controlFuzzy control systemFunction (mathematics)lcsh:QA1-939shifting strategyVDP::Mathematics and natural science: 400::Mathematics: 410Set (abstract data type)lcsh:TA1-2040improving performanceBenchmark (computing)Point (geometry)trucksevolutionary algorithmsbusinesslcsh:Engineering (General). Civil engineering (General)Mathematical Problems in Engineering
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Implementing some Evolutionary Computing Methods for Determining the Optimal Parameters in the Turning Process

2015

In this paper, we comparatively present two heuristics search methods – Simulated Annealing and Weighted Sum Genetic Algorithm, in order to find optimal cutting parameters in turning operation. We consider five different constraints aiming to achieve minimum total cost of machining. We developed a customizable software application in Microsoft Visual Studio with C# source code, flexible and extensible that implements the optimization methods. The experiments are based on real data gathered from S.C. “Compa” S.A Sibiu, a company that manufactures automotive components and targets improving of product quality and reducing cost and production time. The obtained results show that, although the …

Mathematical optimizationEngineeringSource codebusiness.industrymedia_common.quotation_subjectGeneral MedicineMachine learningcomputer.software_genreAdaptive simulated annealingEvolutionary computationMicrosoft Visual StudioSoftwareSimulated annealingGenetic algorithmArtificial intelligenceHeuristicsbusinesscomputermedia_commonApplied Mechanics and Materials
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Main Fuel Cells mathematical models: Comparison and analysis in terms of free parameters

2010

This paper resumes the main mathematical models of Fuel Cells (PEM models). In particular, a comparison study of the various models introduced in the technical literature is presented and the dependency of the various model parameters is analyzed in different operating conditions. As the manifold of the model parameter is very wide and their determination is difficult, it is mandatory to introduce approximations and simplifications on which each model is based. The novelty of this work is the organization of the existing models in three categories with regard to the number of free parameters and to the dependency of such parameters on the different running conditions and the usage of a refe…

Mathematical optimizationEngineeringWork (thermodynamics)Dependency (UML)EquationResistancereference modelproton exchange membrane fuel cells;PEM models;free parameters;main fuel cells mathematical models;reference model;Biomembranes;Equations;Fuel cells;Load modeling;Mathematical model;Numerical models;Resistance;Fuel Cell;Mathematical modeling;Parameter AnalysisSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettriciproton exchange membrane fuel cellPEM modelNumerical modelParameter AnalysisMathematical modelBiomembranemain fuel cells mathematical modelReference modelSimulationLoad modelingMathematical modelbusiness.industryFuel cellNoveltyManifoldFuel cellsfree parameterMathematical modelingbusinessFree parameter
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An interactive multi-objective approach to heat exchanger network synthesis

2010

In this work we present a multi-objective approach to heat exchanger network synthesis. The approach solves a modified version of the Synheat model using an interactive multi-objective optimisation method, NIMBUS, which is implemented in GAMS. The results obtained demonstrate the potential of interactive multi-objective optimisation.

Mathematical optimizationEngineeringWork (thermodynamics)business.industryGeneral Chemical EngineeringHeat exchanger network synthesisObjective approachbusinessComputer Science ApplicationsComputers & Chemical Engineering
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