Search results for "Almost everywhere"

showing 8 items of 28 documents

Minimizers for the Thin One‐Phase Free Boundary Problem

2021

We consider the “thin one-phase" free boundary problem, associated to minimizing a weighted Dirichlet energy of the function in urn:x-wiley:00103640:media:cpa22011:cpa22011-math-0001 plus the area of the positivity set of that function in urn:x-wiley:00103640:media:cpa22011:cpa22011-math-0002. We establish full regularity of the free boundary for dimensions urn:x-wiley:00103640:media:cpa22011:cpa22011-math-0003, prove almost everywhere regularity of the free boundary in arbitrary dimension, and provide content and structure estimates on the singular set of the free boundary when it exists. All of these results hold for the full range of the relevant weight. While our results are typical for…

Pure mathematicsApplied MathematicsGeneral MathematicsDimension (graph theory)Content (measure theory)Free boundary problemBoundary (topology)Almost everywhereDirichlet's energyFunction (mathematics)Measure (mathematics)MathematicsCommunications on Pure and Applied Mathematics
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Absolutely continuous functions and differentiability in Rn

2002

Abstract We relativize the notion of absolute continuity of functions in R n , due to Rado, Reichelderfer and Malý, to subsets of R n and use it to characterize functions (possibly vector valued) differentiable almost everywhere.

Pure mathematicsApplied MathematicsMathematical analysisAlmost everywhereDifferentiable functionAbsolute continuityAnalysisMathematicsJournal of Mathematical Analysis and Applications
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Dorronsoro's theorem in Heisenberg groups

2020

A theorem of Dorronsoro from the 1980s quantifies the fact that real-valued Sobolev functions on Euclidean spaces can be approximated by affine functions almost everywhere, and at all sufficiently small scales. We prove a variant of Dorronsoro's theorem in Heisenberg groups: functions in horizontal Sobolev spaces can be approximated by affine functions which are independent of the last variable. As an application, we deduce new proofs for certain vertical vs. horizontal Poincare inequalities for real-valued functions on the Heisenberg group, originally due to Austin-Naor-Tessera and Lafforgue-Naor.

Pure mathematicsGeneral Mathematics010102 general mathematicsMathematical proof01 natural sciencesSobolev spacesymbols.namesakeEuclidean geometryPoincaré conjectureHeisenberg groupsymbolsAlmost everywhereAffine transformation0101 mathematicsVariable (mathematics)MathematicsBulletin of the London Mathematical Society
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A new full descriptive characterization of Denjoy-Perron integral

1995

It is proved that the absolute continuity of the variational measure generated by an additive interval function \(F\) implies the differentiability almost everywhere of the function \(F\) and gives a full descriptive characterization of the Denjoy-Perron integral.

Pure mathematicsHenstock–Kurzweil integralMathematical analysisMeasure (physics)Riemann integralFunction (mathematics)Absolute continuitysymbols.namesakesymbolsAlmost everywhereGeometry and TopologyDaniell integralDifferentiable functionAnalysisMathematics
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Functions of One Variable

2019

A classical result of Fatou gives that every bounded holomorphic function on the disc has radial limits for almost every point in the torus, and the limit function belongs to the Hardy space H_\infty of the torus. This property is no longer true when we consider vector-valued functions. The Banach spaces X for which this property is satisfied are said to have the analytic Radon-Nikodym property (ARNP). Some important equivalent reformulations of ARNP are studied in this chapter. Among others, X has ARNP if and only if each X-valued H_p- function f on the disc has radial limits almost everywhere on the torus (and not only H_\infty-functions). Even more, in this case each such f has non-tange…

Pure mathematicssymbols.namesakeSubharmonic functionBounded functionBanach spaceHolomorphic functionsymbolsAlmost everywhereTorusHardy–Littlewood maximal functionHardy spaceMathematics
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On the Location and 'Lock-In' of Cities: Geography vs. Transportation Technology

2004

We investigate where cities are located in a spatial economy and why they tend to get 'locked-in' at particular sites. Building on Fujita and Krugman (1995) we show that geography and/or transportation technology must exhibit some 'non-smoothness' for cities to possibly become 'locked-in' in location space. Our results establish that no asymmetric monocentric equilibrium can be generically sustained when space is homogenous and transportation technologies are 'smooth', whereas it can in the presence of transportation hubs and/or concave transport cost functions. This suggests that cities are drawn to transportation hubs during the early stages of economic development, whereas they can be su…

SmoothnessFujita scaleAlmost everywhereEconomic geographySpace (commercial competition)Transportation technologyLocation theorySSRN Electronic Journal
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Joining primal/dual subdivision surfaces

2012

International audience; In this article we study the problem of constructing an intermediate surface between two other surfaces defined by different iterative construction processes. This problem is formalised with Boundary Controlled Iterated Function System model. The formalism allows us to distinguish between subdivision of the topology and subdivision of the mesh. Although our method can be applied to surfaces with quadrangular topology subdivision, it can be used with any mesh subdivision (primal scheme, dual scheme or other.) Conditions that guarantee continuity of the intermediate surface determine the structure of subdivision matrices. Depending on the nature of the initial surfaces…

business.industry020207 software engineering010103 numerical & computational mathematics02 engineering and technology[ INFO.INFO-GR ] Computer Science [cs]/Graphics [cs.GR]Topology01 natural sciences[INFO.INFO-GR]Computer Science [cs]/Graphics [cs.GR]Primal dualIterated function systemComputer Science::GraphicsAttractor0202 electrical engineering electronic engineering information engineeringSubdivision surfaceAlmost everywhereDifferentiable functionFinite subdivision rule0101 mathematicsbusinessMathematicsSubdivision
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Gradient and Lipschitz Estimates for Tug-of-War Type Games

2021

We define a random step size tug-of-war game and show that the gradient of a value function exists almost everywhere. We also prove that the gradients of value functions are uniformly bounded and converge weakly to the gradient of the corresponding $p$-harmonic function. Moreover, we establish an improved Lipschitz estimate when boundary values are close to a plane. Such estimates are known to play a key role in the higher regularity theory of partial differential equations. The proofs are based on cancellation and coupling methods as well as an improved version of the cylinder walk argument. peerReviewed

osittaisdifferentiaaliyhtälöt91A15 35B65 35J92gradient regularityApplied MathematicsTug of warMathematical analysisstochastic two player zero-sum gameType (model theory)Lipschitz continuityComputational MathematicsMathematics - Analysis of PDEsLipschitz estimateBellman equationtug-of-war with noiseFOS: MathematicsUniform boundednesspeliteoriaAlmost everywherep-LaplaceValue (mathematics)AnalysisAnalysis of PDEs (math.AP)Mathematicsstokastiset prosessit
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