Search results for "Measure space"

showing 10 items of 24 documents

Geometry and analysis of Dirichlet forms

2012

Let $ \mathscr E $ be a regular, strongly local Dirichlet form on $L^2(X, m)$ and $d$ the associated intrinsic distance. Assume that the topology induced by $d$ coincides with the original topology on $ X$, and that $X$ is compact, satisfies a doubling property and supports a weak $(1, 2)$-Poincar\'e inequality. We first discuss the (non-)coincidence of the intrinsic length structure and the gradient structure. Under the further assumption that the Ricci curvature of $X$ is bounded from below in the sense of Lott-Sturm-Villani, the following are shown to be equivalent: (i) the heat flow of $\mathscr E$ gives the unique gradient flow of $\mathscr U_\infty$, (ii) $\mathscr E$ satisfies the Ne…

Mathematics(all)General MathematicsPoincaré inequalityMetric measure space01 natural sciencesMeasure (mathematics)Length structuresymbols.namesakeMathematics - Metric GeometrySierpinski gasketGradient flowClassical Analysis and ODEs (math.CA)FOS: Mathematics0101 mathematicsRicci curvatureHeat kernelMathematicsDirichlet formProbability (math.PR)010102 general mathematicsMathematical analysista111Differential structureMetric Geometry (math.MG)Functional Analysis (math.FA)Sierpinski triangleMathematics - Functional Analysis010101 applied mathematicsRicci curvatureMathematics - Classical Analysis and ODEsPoincaré inequalityBounded functionsymbolsBalanced flowDirichlet formIntrinsic distanceMathematics - ProbabilityAdvances in Mathematics
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Pointwise characterizations of Besov and Triebel–Lizorkin spaces and quasiconformal mappings

2011

Abstract In this paper, the authors characterize, in terms of pointwise inequalities, the classical Besov spaces B ˙ p , q s and Triebel–Lizorkin spaces F ˙ p , q s for all s ∈ ( 0 , 1 ) and p , q ∈ ( n / ( n + s ) , ∞ ] , both in R n and in the metric measure spaces enjoying the doubling and reverse doubling properties. Applying this characterization, the authors prove that quasiconformal mappings preserve F ˙ n / s , q s on R n for all s ∈ ( 0 , 1 ) and q ∈ ( n / ( n + s ) , ∞ ] . A metric measure space version of the above morphism property is also established.

Mathematics(all)Quasiconformal mappingPure mathematicsGeneral MathematicsGrand Besov spaceMetric measure spaceTriebel–Lizorkin spaceCharacterization (mathematics)Space (mathematics)Triebel–Lizorkin space01 natural sciencesMeasure (mathematics)Quasisymmetric mappingMorphism0101 mathematicsBesov spaceHajłasz–Besov spaceMathematicsPointwiseta111010102 general mathematicsGrand Triebel–Lizorkin spaceQuasiconformal mappingHajłasz–Triebel–Lizorkin space010101 applied mathematicsBesov spaceFractional Hajłasz gradientAdvances in Mathematics
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On a class of singular measures satisfying a strong annular decay condition

2018

A metric measure space $(X,d,\mu)$ is said to satisfy the strong annular decay condition if there is a constant $C>0$ such that $$ \mu\big(B(x,R)\setminus B(x,r)\big)\leq C\, \frac{R-r}{R}\, \mu (B(x,R)) $$ for each $x\in X$ and all $0<r \leq R$. If $d_{\infty}$ is the distance induced by the $\infty$-norm in $\mathbb{R}^N$, we construct examples of singular measures $\mu$ on $\mathbb{R}^N$ such that $(\mathbb{R}^N, d_{\infty},\mu)$ satisfies the strong annular decay condition.

PhysicsClass (set theory)Applied MathematicsGeneral MathematicsMetric Geometry (math.MG)Space (mathematics)metriset avaruudetMeasure (mathematics)Bernoulli productfunktioteoriaCombinatoricsmetric measure spaceMathematics - Metric Geometryannular decay conditiondoubling measureFOS: Mathematicsmittateoria
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Smoothing properties of the discrete fractional maximal operator on Besov and Triebel-Lizorkin spaces

2013

Motivated by the results of Korry, and Kinnunen and Saksman, we study the behaviour of the discrete fractional maximal operator on fractional Hajlasz spaces, Hajlasz-Besov, and Hajlasz-Triebel-Lizorkin spaces on metric measure spaces. We show that the discrete fractional maximal operator maps these spaces to the spaces of the same type with higher smoothness. Our results extend and unify aforementioned results. We present our results in a general setting, but they are new already in the Euclidean case.

Pure mathematicsGeneral MathematicsMetric measure spaceSpace (mathematics)Triebel–Lizorkin spaceMeasure (mathematics)Triebel-Lizorkin spaceFOS: Mathematics46E35Birnbaum–Orlicz spaceLp spaceBesov spacefractional Sobolev spaceMathematicsMathematics::Functional Analysista111Mathematical analysisFractional Sobolev spaceFunctional Analysis (math.FA)Fractional calculusMathematics - Functional Analysismetric measure space42B25 46E35fractional maximal functionBesov spaceInterpolation spaceFractional maximal function42B25
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Notions of Dirichlet problem for functions of least gradient in metric measure spaces

2019

We study two notions of Dirichlet problem associated with BV energy minimizers (also called functions of least gradient) in bounded domains in metric measure spaces whose measure is doubling and supports a (1, 1)-Poincaré inequality. Since one of the two notions is not amenable to the direct method of the calculus of variations, we construct, based on an approach of Juutinen and Mazón-Rossi–De León, solutions by considering the Dirichlet problem for p-harmonic functions, p>1, and letting p→1. Tools developed and used in this paper include the inner perimeter measure of a domain. Peer reviewed

Pure mathematicsGeneral MathematicsPoincaré inequalitycodimension 1 Hausdorff measure01 natural sciencesMeasure (mathematics)symbols.namesakeMathematics - Analysis of PDEsMathematics - Metric GeometryFOS: Mathematicsinner trace0101 mathematicsleast gradientMathematicsDirichlet problemDirichlet problemp-harmonicDirect method010102 general mathematicsA domainMetric Geometry (math.MG)perimeterfunction of bounded variationmetric measure spacePoincaré inequalityBounded functionMetric (mathematics)symbolsAnalysis of PDEs (math.AP)
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The Choquet and Kellogg properties for the fine topology when $p=1$ in metric spaces

2017

In the setting of a complete metric space that is equipped with a doubling measure and supports a Poincar´e inequality, we prove the fine Kellogg property, the quasi-Lindel¨of principle, and the Choquet property for the fine topology in the case p = 1. Dans un contexte d’espace m´etrique complet muni d’une mesure doublante et supportant une in´egalit´e de Poincar´e, nous d´emontrons la propri´et´e fine de Kellogg, le quasi-principe de Lindel¨of, et la propri´et´e de Choquet pour la topologie fine dans le cas p = 1. peerReviewed

Pure mathematicsProperty (philosophy)1-fine topologyGeneral MathematicsPoincaré inequalityMathematics::General Topology01 natural sciencesMeasure (mathematics)Complete metric spacefunktioteoriasymbols.namesakeMathematics - Metric GeometryFOS: Mathematics0101 mathematicsMathematicsApplied Mathematics010102 general mathematicsta111Metric Geometry (math.MG)30L99 31E05 26B30function of bounded variationfine Kellogg propertymetriset avaruudet010101 applied mathematicsMetric spacemetric measure spacequasi-Lindelöf principleChoquet propertysymbolspotentiaaliteoriaFine topology
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A maximal Function Approach to Two-Measure Poincaré Inequalities

2018

This paper extends the self-improvement result of Keith and Zhong in  Keith and Zhong (Ann. Math. 167(2):575–599, 2008) to the two-measure case. Our main result shows that a two-measure (p, p)-Poincare inequality for $$10$$ under a balance condition on the measures. The corresponding result for a maximal Poincare inequality is also considered. In this case the left-hand side in the Poincare inequality is replaced with an integral of a sharp maximal function and the results hold without a balance condition. Moreover, validity of maximal Poincare inequalities is used to characterize the self-improvement of two-measure Poincare inequalities. Examples are constructed to illustrate the role of t…

Pure mathematicsSelf improvementInequalitymedia_common.quotation_subject010102 general mathematicsPoincaré inequality01 natural sciencesMeasure (mathematics)symbols.namesakeDifferential geometryPoincaré inequality0103 physical sciencesPoincaré conjectureself-improvementsymbolsMaximal functionpotentiaaliteoria010307 mathematical physicsGeometry and Topology0101 mathematicsfunktionaalianalyysiepäyhtälötgeodesic two-measure spaceMathematicsmedia_common
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A version of Hake’s theorem for Kurzweil–Henstock integral in terms of variational measure

2019

Abstract We introduce the notion of variational measure with respect to a derivation basis in a topological measure space and consider a Kurzweil–Henstock-type integral related to this basis. We prove a version of Hake’s theorem in terms of a variational measure.

derivation basiGeneral Mathematics010102 general mathematicsMeasure (physics)variational measureKurzweil-Henstock integralHake property01 natural sciences010101 applied mathematicsTopological measure spaceHakeSettore MAT/05 - Analisi MatematicaApplied mathematics0101 mathematicsMathematicsGeorgian Mathematical Journal
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Fractional Maximal Functions in Metric Measure Spaces

2013

Abstract We study the mapping properties of fractional maximal operators in Sobolev and Campanato spaces in metric measure spaces. We show that, under certain restrictions on the underlying metric measure space, fractional maximal operators improve the Sobolev regularity of functions and map functions in Campanato spaces to Hölder continuous functions. We also give an example of a space where fractional maximal function of a Lipschitz function fails to be continuous.

fractional sobolev spacePure mathematicsQA299.6-433Applied MathematicsMathematics::Classical Analysis and ODEsMathematics::Analysis of PDEsSpace (mathematics)Lipschitz continuityMeasure (mathematics)Functional Analysis (math.FA)Sobolev spaceMathematics - Functional Analysiscampanato space42B25 46E35metric measure spaceMetric (mathematics)FOS: Mathematicsfractional maximal function46e35Maximal functionGeometry and Topology42b25AnalysisMathematicsAnalysis and Geometry in Metric Spaces
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On one-dimensionality of metric measure spaces

2019

In this paper, we prove that a metric measure space which has at least one open set isometric to an interval, and for which the (possibly non-unique) optimal transport map exists from any absolutely continuous measure to an arbitrary measure, is a one-dimensional manifold (possibly with boundary). As an immediate corollary we obtain that if a metric measure space is a very strict $CD(K,N)$ -space or an essentially non-branching $MCP(K,N)$-space with some open set isometric to an interval, then it is a one-dimensional manifold. We also obtain the same conclusion for a metric measure space which has a point in which the Gromov-Hausdorff tangent is unique and isometric to the real line, and fo…

metric measure spacesMathematics - Differential GeometryApplied MathematicsGeneral MathematicsOpen setBoundary (topology)Metric Geometry (math.MG)Space (mathematics)53C23Measure (mathematics)metriset avaruudetManifoldCombinatoricsdifferentiaaligeometriaRicci curvatureDifferential Geometry (math.DG)optimal transportMathematics - Metric GeometryMetric (mathematics)FOS: MathematicsmittateoriaGromov--Hausdorff tangentsReal lineRicci curvatureMathematics
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