Search results for "variaatiolaskenta"

showing 10 items of 19 documents

Periodic Controls in Step 2 Strictly Convex Sub-Finsler Problems

2020

We consider control-linear left-invariant time-optimal problems on step 2 Carnot groups with a strictly convex set of control parameters (in particular, sub-Finsler problems). We describe all Casimirs linear in momenta on the dual of the Lie algebra. In the case of rank 3 Lie groups we describe the symplectic foliation on the dual of the Lie algebra. On this basis we show that extremal controls are either constant or periodic. Some related results for other Carnot groups are presented. peerReviewed

0209 industrial biotechnologyPure mathematicsRank (linear algebra)variaatiolaskenta02 engineering and technology01 natural sciencesdifferentiaaligeometriaoptimal controlsymbols.namesake020901 industrial engineering & automationMathematics (miscellaneous)sub-Finsler geometryPontryagin maximum principleLie algebra0101 mathematicsMathematicsLie groups010102 general mathematicsLie groupBasis (universal algebra)matemaattinen optimointiFoliationsäätöteoriasymbolsCarnot cycleConvex functionSymplectic geometryRegular and Chaotic Dynamics

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Thin obstacle problem : Estimates of the distance to the exact solution

2018

We consider elliptic variational inequalities generated by obstacle type problems with thin obstacles. For this class of problems, we deduce estimates of the distance (measured in terms of the natural energy norm) between the exact solution and any function that satisfies the boundary condition and is admissible with respect to the obstacle condition (i.e., they are valid for any approximation regardless of the method by which it was found). Computation of the estimates does not require knowledge of the exact solution and uses only the problem data and an approximation. The estimates provide guaranteed upper bounds of the error (error majorants) and vanish if and only if the approximation c…

Applied MathematicsComputation010102 general mathematicsMathematical analysista111estimates of the distance to the exact solutionthin obstaclevariaatiolaskentaFunction (mathematics)variationals problems01 natural sciences010101 applied mathematicsExact solutions in general relativityObstacleNorm (mathematics)free boundary problemsVariational inequalityObstacle problemBoundary value problem0101 mathematicsMathematicsInterfaces and Free Boundaries

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A two-phase problem with Robin conditions on the free boundary

2020

We study for the first time a two-phase free boundary problem in which the solution satisfies a Robin boundary condition. We consider the case in which the solution is continuous across the free boundary and we prove an existence and a regularity result for minimizers of the associated variational problem. Finally, in the appendix, we give an example of a class of Steiner symmetric minimizers. peerReviewed

Class (set theory)General MathematicsBoundary (topology)variaatiolaskentaRobin boundary conditionsPhase problemRobin boundary condition01 natural sciencesFree boundary problemsRegularityMathematics - Analysis of PDEsFOS: MathematicsFree boundary problemApplied mathematics0101 mathematicsMathematicsosittaisdifferentiaaliyhtälöt010102 general mathematicsFree boundary problemFree boundary problems; Regularity; Robin boundary conditions; Two-phasematemaattinen optimointi16. Peace & justiceRobin boundary condition010101 applied mathematicsTwo-phaseAnalysis of PDEs (math.AP)

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Local minimizers and gamma-convergence for nonlocal perimeters in Carnot groups

2020

We prove the local minimality of halfspaces in Carnot groups for a class of nonlocal functionals usually addressed as nonlocal perimeters. Moreover, in a class of Carnot groups in which the De Giorgi's rectifiability Theorem holds, we provide a lower bound for the $\Gamma$-liminf of the rescaled energy in terms of the horizontal perimeter.

Class (set theory)Pure mathematicsControl and OptimizationCarnot groups calibrations nonlocal perimeters/ Γ-convergence sets of finite perimeter rectifiabilityMathematics::Analysis of PDEssets of finite perimetervariaatiolaskentaComputer Science::Computational Geometry01 natural sciencesUpper and lower boundsdifferentiaaligeometriasymbols.namesakeMathematics - Analysis of PDEs510 MathematicsMathematics - Metric GeometryComputer Science::Logic in Computer ScienceConvergence (routing)FOS: MathematicsMathematics::Metric Geometry0101 mathematicscalibrationsMathematicsnonlocal perimeters010102 general mathematicsrectifiabilityryhmäteoriaMetric Geometry (math.MG)matemaattinen optimointi010101 applied mathematicsComputational MathematicsΓ-convergenceΓ-convergenceCarnot groupsControl and Systems EngineeringsymbolsCarnot cycleAnalysis of PDEs (math.AP)ESAIM: Control, Optimisation and Calculus of Variations

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A quantitative reverse Faber-Krahn inequality for the first Robin eigenvalue with negative boundary parameter

2021

The aim of this paper is to prove a quantitative form of a reverse Faber-Krahn type inequality for the first Robin Laplacian eigenvalueλβwith negative boundary parameter among convex sets of prescribed perimeter. In that framework, the ball is the only maximizer forλβand the distance from the optimal set is considered in terms of Hausdorff distance. The key point of our stategy is to prove a quantitative reverse Faber-Krahn inequality for the first eigenvalue of a Steklov-type problem related to the original Robin problem.

Control and Optimizationconvex setsBoundary (topology)variaatiolaskenta01 natural sciencesSet (abstract data type)Perimeter0103 physical sciencesquantitative isoperimetric inequalityConvex setBall (mathematics)0101 mathematicsEigenvalues and eigenvectorsMathematicsosittaisdifferentiaaliyhtälötominaisarvot010102 general mathematicsMathematical analysisRegular polygonMathematics::Spectral Theorymatemaattinen optimointiQuantitative isoperimetric inequalityComputational MathematicsHausdorff distanceControl and Systems EngineeringRobin eigenvalue010307 mathematical physicsLaplace operator

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Extending an example by Colding and Minicozzi

2018

Extending an example by Colding and Minicozzi, we construct a sequence of properly embedded minimal disks $\Sigma_i$ in an infinite Euclidean cylinder around the $x_3$-axis with curvature blow-up at a single point. The sequence converges to a non smooth and non proper minimal lamination in the cylinder. Moreover, we show that the disks $\Sigma_i$ are not properly embedded in a sequence of open subsets of $\mathbb{ R}^3$ that exhausts $\mathbb{ R}^3$.

Mathematics - Differential GeometryvariaatiolaskentaLamination (topology)Curvatureminimal surfaces01 natural sciencesCombinatoricsdifferentiaaligeometria510 Mathematics0103 physical sciencesEuclidean geometryFOS: MathematicsCylinderPhysics::Atomic Physics0101 mathematicsMathematicsSequence010102 general mathematicsSigmaminimal laminationsColding-Minicozzi theoryDifferential geometryDifferential Geometry (math.DG)53A10 (Primary)010307 mathematical physicsGeometry and TopologyMathematics::Differential GeometrySingle point

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On deterministic solutions for multi-marginal optimal transport with Coulomb cost

2022

In this paper we study the three-marginal optimal mass transportation problem for the Coulomb cost on the plane $\R^2$. The key question is the optimality of the so-called Seidl map, first disproved by Colombo and Stra. We generalize the partial positive result obtained by Colombo and Stra and give a necessary and sufficient condition for the radial Coulomb cost to coincide with a much simpler cost that corresponds to the situation where all three particles are aligned. Moreover, we produce an infinite class of regular counterexamples to the optimality of this family of maps.

Multimarginal optimal transportation Monge-Kantorovich problem Duality theory Coulomb cost Density Functional Theory.Applied MathematicstiheysfunktionaaliteoriaFOS: Physical sciencesMonge-Kantorovich problemduality theoryvariaatiolaskentaMathematical Physics (math-ph)General MedicineDensity Functional Theory.matemaattinen optimointimultimarginal optimal transportation49J45 49N15 49K30Mathematics - Analysis of PDEsOptimization and Control (math.OC)Coulomb costFOS: MathematicsMathematics - Optimization and ControlMathematical PhysicsAnalysisAnalysis of PDEs (math.AP)

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Fine properties of functions with bounded variation in Carnot-Carathéodory spaces

2019

Abstract We study properties of functions with bounded variation in Carnot-Caratheodory spaces. We prove their almost everywhere approximate differentiability and we examine their approximate discontinuity set and the decomposition of their distributional derivatives. Under an additional assumption on the space, called property R , we show that almost all approximate discontinuities are of jump type and we study a representation formula for the jump part of the derivative.

Pure mathematicsApplied Mathematics010102 general mathematicsvariaatiolaskentaCarnot-Carathéodory spaces; Functions with bounded variationType (model theory)Classification of discontinuitiesSpace (mathematics)01 natural sciencesdifferentiaaligeometria010101 applied mathematicsDiscontinuity (linguistics)Functions with bounded variationBounded variationCarnot-Carathéodory spacesJumpAlmost everywheremittateoriaDifferentiable function0101 mathematicsfunctions with bounded variationfunktiotAnalysisMathematicsJournal of Mathematical Analysis and Applications

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Indecomposable sets of finite perimeter in doubling metric measure spaces

2020

We study a measure-theoretic notion of connectedness for sets of finite perimeter in the setting of doubling metric measure spaces supporting a weak $(1,1)$-Poincar\'{e} inequality. The two main results we obtain are a decomposition theorem into indecomposable sets and a characterisation of extreme points in the space of BV functions. In both cases, the proof we propose requires an additional assumption on the space, which is called isotropicity and concerns the Hausdorff-type representation of the perimeter measure.

Pure mathematicsSocial connectednessvariaatiolaskentaSpace (mathematics)01 natural sciencesMeasure (mathematics)differentiaaligeometriaPerimeterMathematics - Analysis of PDEsMathematics - Metric Geometry0103 physical sciencesFOS: Mathematics0101 mathematicsExtreme pointRepresentation (mathematics)MathematicsApplied Mathematics010102 general mathematicsdifferential equationsMetric Geometry (math.MG)metriset avaruudetFunctional Analysis (math.FA)Mathematics - Functional AnalysisMetric (mathematics)mittateoria010307 mathematical physicsvariation26B30 53C23Indecomposable moduleAnalysisAnalysis of PDEs (math.AP)Calculus of Variations and Partial Differential Equations

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Klassisia variaatio-ongelmia

2017

Tämä tutkielma käsittelee variaatiolaskentaa. Variaatiolaskenta on saanut alkunsa matemaattisesta analyysistä 1700-luvun vaihteessa Johann Bernoullin esittämän Brachistochrone-ongelman vaikutuksesta. Tätä matematiikan alaa voidaan pitää yleistyksenä analyysin ongelmaan funktioiden ääriarvopisteiden löytämisestä. Reaaliarvoisten funktioiden sijaan variaatiolaskenta käsittelee funktionaaleja. Funktionaalit ovat kuvauksia funktioavaruudesta reaaliluvuille. Funktionaaleilla mallinnetaan ongelmaa, johon variaatiolaskennalla etsitään ratkaisu. Variaatiolaskenta keskittyykin funktion, jolla funktionaali saa suurimman tai pienimmän arvonsa, etsimiseen. Yksinkertaisin esimerkki on kahden pisteen, P1…

brakistokroniisoperimetrinen ongelmavariaatiolaskenta

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