亲和和距离。关于某些数据核的牛顿结构

IF 0.9 3区数学 Q2 MATHEMATICS

Analysis and Geometry in Metric Spaces Pub Date : 2018-06-01 DOI:10.1515/agms-2018-0005

H. Aimar, I. Gómez

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引用次数: 1

摘要

设X是一个集合。设K(x, y) > 0是数据点x和y之间亲和力的度量。我们证明了K在两个温和条件下具有牛顿势K(x, y) = φ(d(x, y))的结构，并且在K上证明了d是x上的一个准度量。首先，每个x对自身的亲和力是无限的，当x≠y时，亲和力是正有限的。第二个是数量及物性;如果x与y的亲和力大于λ >， y与z的亲和力也大于λ，则x与z的亲和力大于ν(λ)。函数ν是凹的，递增的，从R+到R+连续的，且对于每一个λ >， ν(λ) < λ

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Affinity and Distance. On the Newtonian Structure of Some Data Kernels

Abstract Let X be a set. Let K(x, y) > 0 be a measure of the affinity between the data points x and y. We prove that K has the structure of a Newtonian potential K(x, y) = φ(d(x, y)) with φ decreasing and d a quasi-metric on X under two mild conditions on K. The first is that the affinity of each x to itself is infinite and that for x ≠ y the affinity is positive and finite. The second is a quantitative transitivity; if the affinity between x and y is larger than λ > 0 and the affinity of y and z is also larger than λ, then the affinity between x and z is larger than ν(λ). The function ν is concave, increasing, continuous from R+ onto R+ with ν(λ) < λ for every λ > 0

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来源期刊

Analysis and Geometry in Metric Spaces Mathematics-Geometry and Topology

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： Analysis and Geometry in Metric Spaces is an open access electronic journal that publishes cutting-edge research on analytical and geometrical problems in metric spaces and applications. We strive to present a forum where all aspects of these problems can be discussed. AGMS is devoted to the publication of results on these and related topics: Geometric inequalities in metric spaces, Geometric measure theory and variational problems in metric spaces, Analytic and geometric problems in metric measure spaces, probability spaces, and manifolds with density, Analytic and geometric problems in sub-riemannian manifolds, Carnot groups, and pseudo-hermitian manifolds. Geometric control theory, Curvature in metric and length spaces, Geometric group theory, Harmonic Analysis. Potential theory, Mass transportation problems, Quasiconformal and quasiregular mappings. Quasiconformal geometry, PDEs associated to analytic and geometric problems in metric spaces.