Search results for "OPTIMA"

showing 10 items of 735 documents

Decision Making on Pareto Front Approximations with Inherent Nondominance

2011

t Approximating the Pareto fronts of nonlinear multiobjective optimization problems is considered and a property called inherent nondominance is proposed for such approximations. It is shown that an approximation having the above property can be explored by interactively solving a multiobjective optimization problem related to it. This exploration can be performed with available interactive multiobjective optimization methods. The ideas presented are especially useful in solving computationally expensive multiobjective optimization problems with costly function value evaluations. peerReviewed

Mathematical optimizationProperty (philosophy)Multiobjective OptimizationComputer Science::Neural and Evolutionary ComputationMathematicsofComputing_NUMERICALANALYSISMathematics::Optimization and ControlPareto principleFunction (mathematics)monitavoiteoptimointiComputingMethodologies_ARTIFICIALINTELLIGENCEMulti-objective optimizationMultiobjective optimization problemNonlinear systemPareto optimalObjective vectorMathematics
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Introduction to the Pontryagin Maximum Principle for Quantum Optimal Control

2021

Optimal Control Theory is a powerful mathematical tool, which has known a rapid development since the 1950s, mainly for engineering applications. More recently, it has become a widely used method to improve process performance in quantum technologies by means of highly efficient control of quantum dynamics. This tutorial aims at providing an introduction to key concepts of optimal control theory which is accessible to physicists and engineers working in quantum control or in related fields. The different mathematical results are introduced intuitively, before being rigorously stated. This tutorial describes modern aspects of optimal control theory, with a particular focus on the Pontryagin …

Mathematical optimizationQuantum PhysicsComputer scienceProcess (engineering)Quantum dynamicsGeneral EngineeringFOS: Physical sciencesOptimal control01 natural sciences010305 fluids & plasmasQuantum technologyDevelopment (topology)[PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph]0103 physical sciencesKey (cryptography)General Earth and Planetary Sciences[MATH.MATH-OC]Mathematics [math]/Optimization and Control [math.OC]Quantum Physics (quant-ph)010306 general physicsControl (linguistics)QuantumGeneral Environmental Science
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External constraints on optimal control strategies in molecular orientation and photofragmentation: Role of zero-area fields

2013

We propose a new formulation of optimal and local control algorithms which enforces the constraint of time-integrated zero-area on the control field. The fulfillment of this requirement, crucial in many physical applications, is mathematically implemented by the introduction of a Lagrange multiplier aiming at penalizing the pulse area. This method allows to design a control field with an area as small as possible, while bringing the dynamical system close to the target state. We test the efficiency of this approach on two control purposes in molecular dynamics, namely, orientation and photodissociation.

Mathematical optimizationQuantum PhysicsField (physics)Computer scienceOrientation (computer vision)Control (management)FOS: Physical sciencesOptimal controlDynamical systemAtomic and Molecular Physics and OpticsConstraint (information theory)symbols.namesakeLagrange multipliersymbolsState (computer science)Quantum Physics (quant-ph)
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Time optimization and state-dependent constraints in the quantum optimal control of molecular orientation

2014

We apply two recent generalizations of monotonically convergent optimization algorithms to the control of molecular orientation by laser fields. We show how to minimize the control duration by a step-wise optimization and maximize the field-free molecular orientation using state-dependent constraints. We discuss the physical relevance of the different results.

Mathematical optimizationQuantum PhysicsQuantum optimal controlOptimization algorithmState dependentComputer scienceFOS: Physical sciencesMonotonic functionOrientation (graph theory)Quantum Physics (quant-ph)Atomic and Molecular Physics and Optics
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Optimal selection of the four best of a sequence

1993

We consider the situation in which the decision-maker is allowed to have four choices with purpose to choose exactly the four absolute best candidates fromN applicants. The optimal stopping rule and the maximum probability of making the right choice are given for largeN∈N, the maximum asymptotic value of the best choice being limN→∞P(win)≈0.12706.

Mathematical optimizationSequenceGeneral MathematicsValue (economics)Stopping ruleOptimal stopping ruleOptimal stoppingManagement Science and Operations ResearchMathematical economicsSoftwareSelection (genetic algorithm)Secretary problemMathematicsZOR Zeitschrift f� Operations Research Methods and Models of Operations Research
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Optimal Impulse Control When Control Actions Have Random Consequences

1997

We consider a generalised impulse control model for controlling a process governed by a stochastic differential equation. The controller can only choose a parameter of the probability distribution of the consequence of his control action which is therefore random. We state optimality results relating the value function to quasi-variational inequalities and a formal optimal stopping problem. We also remark that the value function is a viscosity solution of the quasi-variational inequalities which could lead to developments and convergence proofs of numerical schemes. Further, we give some explicit examples and an application in financial mathematics, the optimal control of the exchange rate…

Mathematical optimizationStochastic differential equationControl theoryGeneral MathematicsBellman equationMathematical financeProbability distributionOptimal stoppingManagement Science and Operations ResearchViscosity solutionOptimal controlComputer Science ApplicationsMathematicsMathematics of Operations Research
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Decision-aid for discrete multiple criteria decision making problems with imprecise data

1999

Abstract We describe ways of aiding decision making with a discrete set of alternatives. In many decision situations, it is not possible to obtain explicit preference information from the decision makers. Instead, useful decision-aid can be provided to the decision makers by describing what kind of weighting of the criteria result in certain choices of the alternatives. The suggested treatment is based on the basic ideas of the ELECTRE III method. The modelling of the preferences by pseudo-criteria is especially helpful in case the data, that is, the criterion values are imprecise. Unlike ELECTRE III, no ranking of the alternatives is produced. Based on a minimum-procedure in the exploitati…

Mathematical optimizationWeighted sum modelInformation Systems and ManagementGeneral Computer ScienceWeighted product modelEvidential reasoning approachDecision ruleManagement Science and Operations ResearchIndustrial and Manufacturing EngineeringModeling and SimulationInfluence diagramELECTREOptimal decisionMathematicsDecision analysisEuropean Journal of Operational Research
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Optimal Placement of Pressure Sensors Using Fuzzy DEMATEL-Based Sensor Influence

2020

[EN] Nowadays, optimal sensor placement (OSP) for leakage detection in water distribution networks is a lively field of research, and a challenge for water utilities in terms of network control, management, and maintenance. How many sensors to install and where to install them are crucial decisions to make for those utilities to reach a trade-off between efficiency and economy. In this paper, we address the where-to-install-them part of the OSP through the following elements: nodes' sensitivity to leakage, uncertainty of information, and redundancy through conditional entropy maximisation. We evaluate relationships among candidate sensors in a network to get a picture of the mutual influenc…

Mathematical optimizationlcsh:Hydraulic engineeringDistribution networksoptimal sensor placementComputer scienceEntropyleakageGeography Planning and Development09.- Desarrollar infraestructuras resilientes promover la industrialización inclusiva y sostenible y fomentar la innovación0207 environmental engineeringDEMATEL02 engineering and technologyAquatic ScienceBiochemistryFuzzy logiclcsh:Water supply for domestic and industrial purposesSensitivityMulti-criteria decision-makingFuzzy dematellcsh:TC1-9780202 electrical engineering electronic engineering information engineeringmulti-criteria decision-makingEntropy (information theory)uncertainty020701 environmental engineeringMutual influenceWater Science and TechnologyConditional entropylcsh:TD201-500Network controlUncertaintyWater distribution networksensitivityPressure sensorOptimal sensor placementwater distribution network020201 artificial intelligence & image processingMATEMATICA APLICADAentropyLeakageWater
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Calculation of cost-optimal combination of building materials and technical systems for nZEB single-family house using global cost calculation method

2019

As a rule, during the design stage of a single-family house, only initial costs are taken into account and optimised. Long-term financial calculations are usually not even made. At the same time, total costs to design, build and operate the building show a real difference in expenses while living in this house. In the case of nearly zero energy buildings (nZEBs), this global cost approach becomes especially useful because of the strict requirements of heating and primary energy, as well as the compulsory use of renewable energy sources, requiring more detailed and comprehensive calculations of a cost-optimal set of solutions. In this study, a nZEB single-family house is analysed in detail u…

Mathematical optimizationlcsh:TA1-2040Computer scienceSingle-family detached homeTechnical systemsOptimal combinationlcsh:Engineering (General). Civil engineering (General)Cost calculationMATEC Web of Conferences
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Obtaining the best value for money in adaptive sequential estimation

2010

Abstract In [Kujala, J. V., Richardson, U., & Lyytinen, H. (2010). A Bayesian-optimal principle for learner-friendly adaptation in learning games. Journal of Mathematical Psychology , 54(2), 247–255], we considered an extension of the conventional Bayesian adaptive estimation framework to situations where each observable variable is associated with a certain random cost of observation. We proposed an algorithm that chooses each placement by maximizing the expected gain in utility divided by the expected cost. In this paper, we formally justify this placement rule as an asymptotically optimal solution to the problem of maximizing the expected utility of an experiment that terminates when the…

Mathematical psychologySequential estimationMathematical optimizationTotal costActive learning (machine learning)Computer scienceApplied MathematicsDecision theory05 social sciencesBayesian probability050105 experimental psychology03 medical and health sciences0302 clinical medicineAsymptotically optimal algorithm0501 psychology and cognitive sciences030217 neurology & neurosurgeryGeneral PsychologyExpected utility hypothesisJournal of Mathematical Psychology
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