Search results for " optimization."

showing 10 items of 2333 documents

Exact controllability to trajectories for entropy solutions to scalar conservation laws in several space dimensions

2019

We describe a new method which allows us to obtain a result of exact controllability to trajectories of multidimensional conservation laws in the context of entropy solutions and under a mere non-degeneracy assumption on the flux and a natural geometric condition.

Conservation law010102 general mathematicsGeneral Medicine01 natural sciencesControllabilityMathematics - Analysis of PDEsOptimization and Control (math.OC)0103 physical sciencesFOS: MathematicsApplied mathematics[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]010307 mathematical physics[MATH.MATH-OC]Mathematics [math]/Optimization and Control [math.OC]0101 mathematicsEntropy (arrow of time)Mathematics - Optimization and ControlMathematicsAnalysis of PDEs (math.AP)
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Numerical decomposition of geometric constraints

2005

Geometric constraint solving is a key issue in CAD/CAM. Since Owen's seminal paper, solvers typically use graph based decomposition methods. However, these methods become difficult to implement in 3D and are misled by geometric theorems. We extend the Numerical Probabilistic Method (NPM), well known in rigidity theory, to more general kinds of constraints and show that NPM can also decompose a system into rigid subsystems. Classical NPM studies the structure of the Jacobian at a random (or generic) configuration. The variant we are proposing does not consider a random configuration, but a configuration similar to the unknown one. Similar means the configuration fulfills the same set of inci…

Constraint (information theory)AlgebraSet (abstract data type)symbols.namesakeMathematical optimizationProbabilistic methodJacobian matrix and determinantsymbolsStructure (category theory)CADGas meter proverMathematicsIncidence (geometry)Proceedings of the 2005 ACM symposium on Solid and physical modeling
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Constraint qualifications and Lagrange multipliers in nondifferentiable programming problems

1994

In this paper, we present several constraint qualifications, and we show that these conditions guarantee the nonvacuity and the boundedness of the Lagrange multiplier sets for general nondifferentiable programming problems. The relationships with various constraint qualifications are investigated.

Constraint (information theory)Constraint algorithmsymbols.namesakeMathematical optimizationControl and OptimizationComputingMilieux_THECOMPUTINGPROFESSIONApplied MathematicsLagrange multiplierTheory of computationsymbolsManagement Science and Operations ResearchConstraint satisfactionMathematicsJournal of Optimization Theory and Applications
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An optimality test for semi-infinite linear programming

1992

In this paper we present a test to characterize the optimal solutions for the continuous semi-infinite linear programming problem. This optimality characterization is a condition of Kuhn–Tucker type. The resolution of a linear program permits to check the optimality of a feasible point,to detect the unboundedness of the problem and to find descent directions. We give some illustrative examples. We show that the local Mangasarian–Fromovitz constraint qualification is almost equivalent to Slater qualification for this problem. Furthermore, it follows from our study that this optimality condition is always necessary for a wide class of semi-infinite linear programming problems

Constraint (information theory)Mathematical optimizationControl and OptimizationLinear programmingSemi-infiniteApplied MathematicsPoint (geometry)Management Science and Operations ResearchType (model theory)Semi-infinite programmingLinear-fractional programmingDescent (mathematics)MathematicsOptimization
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Exact and Approximate Algorithms for Two–Criteria Topological Design Problem of WAN with Budget and Delay Constraints

2004

This paper studies the problem of designing wide area networks (WAN). In the paper the two-criteria topology assignment problem with two constraints is considered. The goal is select flow routes, channel capacities and network topology in order to minimize the total average delay per packet and the leasing cost of channels subject to the budget constraint and delay constraint. The problem is NP-complete. Then, the branch and bound method is used to construct the exact algorithm. Also the approximate algorithm is presented. Some computational results are reported. Based on computational experiments, several properties of the considered problem are formulated.

Constraint (information theory)Mathematical optimizationExact algorithmConstraint satisfaction dual problemTopology (electrical circuits)TopologyNetwork topologyAssignment problemAlgorithmBudget constraintMathematicsCommunication channel
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The Two-Criteria Topological Design Problem in WAN with Delay Constraint: An Algorithm and Computational Results

2003

The problem is concerned with designing of wide area networks (WAN). The problem consists in selection of flow routes, channel capacities and wide area network topology in order to minimize the total average delay per packet and the leasing cost of channels subject to delay constraint. The problem is NP complete. Then, the branch and bound method is used to construct the exact algorithm. Lower bound of the criterion function is proposed. Computational results are reported. Based on computational experiments, several properties of the considered problem are formulated.

Constraint (information theory)Mathematical optimizationExact algorithmFlow (mathematics)Network packetWide area networkTopology (electrical circuits)TopologyUpper and lower boundsAlgorithmCommunication channelMathematics
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New Geometric Constraint Solving Formulation: Application to the 3D Pentahedron

2014

Geometric Constraint Solving Problems (GCSP) are nowadays routinely investigated in geometric modeling. The 3D Pentahedron problem is a GCSP defined by the lengths of its edges and the planarity of its quadrilateral faces, yielding to an under-constrained system of twelve equations in eighteen unknowns. In this work, we focus on solving the 3D Pentahedron problem in a more robust and efficient way, through a new formulation that reduces the underlying algebraic formulation to a well-constrained system of three equations in three unknowns, and avoids at the same time the use of placement rules that resolve the under-constrained original formulation. We show that geometric constraints can be …

Constraint (information theory)Mathematical optimizationQuadrilateralComputer scienceAlgebraic numberFocus (optics)Geometric modelingParametrizationPentahedronPlanarity testing
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Solution isolation strategies for the Bernstein polytopes-based solver

2013

The Bernstein polytopes-based solver is a new method developed to solve systems of nonlinear equations, which often occur in Geometric Constraint Solving Problems. The principle of this solver is to linearize nonlinear monomials and then to solve the resulting linear programming problems, through linear programming. However, without any strategy for the isolation of the many solutions of multiple-solution systems, this solver is slow in practice. To overcome this problem, we propose in this work, a study of several strategies for solution isolation, through the split of solution boxes into several subboxes, according to three main steps answering the questions: when, where, and how to perfo…

Constraint (information theory)Nonlinear systemMonomialMathematical optimizationLinear programmingComputer scienceBenchmark (computing)PolytopeSolverGeometric modeling2013 7th IEEE GCC Conference and Exhibition (GCC)
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Dynamic factorial graphical models for dynamic networks

2014

Dynamic networks models describe a growing number of important scientific processes, from cell biology and epidemiology to sociology and finance. Estimating dynamic networks from noisy time series data is a difficult task since the number of components involved in the system is very large. As a result, the number of parameters to be estimated is typically larger than the number of observations. However, a characteristic of many real life networks is that they are sparse. For example, the molec- ular structure of genes make interactions with other components a highly-structured and, therefore, a sparse process. Penalized Gaussian graphical models have been used to estimate sparse networks. H…

Constraint optimization Dynamic networks Gaussian graphical models Penalized likelihood Symmetry models Time-course dataSettore SECS-S/01 - Statistica
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Environmental sustainability in non-residential buildings by automating and optimization LENI index

2018

Directive 2002/91 / EC as amended by 2010/31 / EU introduces procedures for energy certification aimed to determine, through the numerical indicators, the overall energy efficiency of the buildings, but notes the thermal and electric consumption. Often, the power consumption is incorrectly underestimated, this consumption would to be considered with great attention. In fact, compared to a committed capacity of less, compared to thermal plants, have times of utilization often far higher, leading to energy requirements to levels similar or even higher than those thermal, being the conversion factor of the electrical energy increasingly high. Leaving aside the procedural scheme energy certific…

Consumption (economics)Computer science020209 energyElectric potential energyLighting Buildings Control systems Manuals Mathematical model Optimization IndexesConversion factor02 engineering and technologyCertificationEnvironmental economicsElectric lightSettore ING-INF/04 - AutomaticaSustainability0202 electrical engineering electronic engineering information engineeringDaylightEfficient energy use2018 Thirteenth International Conference on Ecological Vehicles and Renewable Energies (EVER)
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