Search results for "NIMBUS method"

showing 4 items of 4 documents

Potential of interactive multiobjective optimization in supporting the design of a groundwater biodenitrification process

2019

The design of water treatment plants requires simultaneous analysis of technical, economic and environmental aspects, identified by multiple conflicting objectives. We demonstrated the advantages of an interactive multiobjective optimization (MOO) method over a posteriori methods in an unexplored field, namely the design of a biological treatment plant for drinking water production, that tackles the process drawbacks, contrarily to what happens in a traditional volumetric-load-driven design procedure. Specifically, we consider a groundwater denitrification biofilter, simulated by the Activated Sludge Model modified with two-stage denitrification kinetics. Three objectives were defined (nitr…

Pareto optimalityDecision support systemdecision supportEnvironmental EngineeringProcess (engineering)Computer science0208 environmental biotechnologypäätöksentukijärjestelmät02 engineering and technologyActivated sludge model010501 environmental sciencesManagement Monitoring Policy and Law01 natural sciencesMulti-objective optimizationInteractive methodIND-NIMBUSWater treatmentSensitivity (control systems)Process engineeringWaste Management and DisposalGroundwater0105 earth and related environmental sciencesvedenpuhdistusNitratesSewagepareto optimalitypareto-tehokkuusbusiness.industrywater treatmentGeneral Medicineinteractive methodvedenkäsittelymonitavoiteoptimointi020801 environmental engineeringDecision supportRange (mathematics)Decision support; IND-NIMBUS; Interactive method; NIMBUS method; Pareto optimality; Water treatment; Algorithms; Denitrification; Nitrates; Sewage; GroundwaterDenitrificationA priori and a posterioriWater treatmentNIMBUS methodbusinessAlgorithms
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A solution process for simulation-based multiobjective design optimization with an application in the paper industry

2014

In this paper, we address some computational challenges arising in complex simulation-based design optimization problems. High computational cost, black-box formulation and stochasticity are some of the challenges related to optimization of design problems involving the simulation of complex mathematical models. Solving becomes even more challenging in case of multiple conflicting objectives that must be optimized simultaneously. In such cases, application of multiobjective optimization methods is necessary in order to gain an understanding of which design offers the best possible trade-off. We apply a three-stage solution process to meet the challenges mentioned above. As our case study, w…

Pareto optimalityEngineeringMathematical optimizationIntegrated designOptimization problemMathematical modelbusiness.industrymedia_common.quotation_subjectControl (management)ta111Computer Graphics and Computer-Aided DesignMulti-objective optimizationIndustrial and Manufacturing EngineeringPAINT methodComputer Science ApplicationsSet (abstract data type)Multicriteria decision makingQuality (business)multiobjective optimizationNIMBUS methodbusinessSimulation basedcomputational costmedia_commonComputer-Aided Design
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On solving computationally expensive multiobjective optimization problems with interactive methods

2014

Pareto-tehokkuusPareto optimalityinteractive multiobjective optimizationmatemaattinen optimointimonitavoiteoptimointilaskennallinen vaativuusmenetelmätPareto-optimointioptimointialgoritmitinteraktiiviset optimointimenetelmätNIMBUS methodsoftware implementationcomputational cost
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Implementation aspects of interactive multiobjective optimization for modeling environments: The case of GAMS-NIMBUS

2014

Abstract. Interactive multiobjective optimization methods have provided promising results in the literature but still their implementations are rare. Here we introduce a core structure of interactive methods to enable their convenient implementation. We also demonstrate how this core structure can be applied when implementing an interactive method using a modeling environment. Many modeling environments contain tools for single objective optimization but not for interactive multiobjective optimization. Furthermore, as a concrete example, we present GAMS-NIMBUS Tool which is an implementation of the classification-based NIMBUS method for the GAMS modeling environment. So far, interactive met…

Structure (mathematical logic)Mathematical optimizationControl and OptimizationModeling languageComputer sciencepareto optimalityApplied Mathematicsinteractive methodsMultiple objective programmingMulti-objective optimizationComputational MathematicsMultiobjective optimization problemSingle objectivemultiple objective programmingNIMBUS methodImplementationmodeling languages
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