The alternating simultaneous Halpern–Lions–Wittmann–Bauschke algorithm for finding the best approximation pair for two disjoint intersections of convex sets

IF 0.9 3区数学 Q2 MATHEMATICS Journal of Approximation Theory Pub Date : 2024-04-27 DOI:10.1016/j.jat.2024.106045

Yair Censor, Rafiq Mansour , Daniel Reem

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Abstract

Given two nonempty and disjoint intersections of closed and convex subsets, we look for a best approximation pair relative to them, i.e., a pair of points, one in each intersection, attaining the minimum distance between the disjoint intersections. We propose an iterative process based on projections onto the subsets which generate the intersections. The process is inspired by the Halpern–Lions–Wittmann–Bauschke algorithm and the classical alternating process of Cheney and Goldstein, and its advantage is that there is no need to project onto the intersections themselves, a task which can be rather demanding. We prove that under certain conditions the two interlaced subsequences converge to a best approximation pair. These conditions hold, in particular, when the space is Euclidean and the subsets which generate the intersections are compact and strictly convex. Our result extends the one of Aharoni, Censor and Jiang [“Finding a best approximation pair of points for two polyhedra”, Computational Optimization and Applications 71 (2018), 509–23] who considered the case of finite-dimensional polyhedra.

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为两个不相交的凸集寻找最佳近似对的交替同步 Halpern-Lions-Wittmann-Bauschke 算法

给定封闭凸子集的两个非空且不相交的交点，我们寻找相对于这两个交点的最佳近似对，即在两个不相交的交点之间距离最小的一对点，每个交点上有一个点。我们提出了一个基于对产生交集的子集的投影的迭代过程。这一过程受到 Halpern-Lions-Wittmann-Bauschke 算法以及切尼和戈尔茨坦的经典交替过程的启发，其优势在于无需投影到交集本身，而这是一项要求相当高的任务。我们证明，在某些条件下，两个交错子序列会收敛到最佳近似对。特别是当空间是欧几里得空间，且产生交集的子集是紧凑和严格凸的时候，这些条件就会成立。我们的结果扩展了 Aharoni、Censor 和 Jiang ["寻找两个多面体的最佳近似点对"，Computational Optimization and Applications 71 (2018)，509-23] 的结果，他们考虑了有限维多面体的情况。

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来源期刊

Journal of Approximation Theory 数学-数学

CiteScore

1.90

自引率

11.10%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Approximation Theory is devoted to advances in pure and applied approximation theory and related areas. These areas include, among others: • Classical approximation • Abstract approximation • Constructive approximation • Degree of approximation • Fourier expansions • Interpolation of operators • General orthogonal systems • Interpolation and quadratures • Multivariate approximation • Orthogonal polynomials • Padé approximation • Rational approximation • Spline functions of one and several variables • Approximation by radial basis functions in Euclidean spaces, on spheres, and on more general manifolds • Special functions with strong connections to classical harmonic analysis, orthogonal polynomial, and approximation theory (as opposed to combinatorics, number theory, representation theory, generating functions, formal theory, and so forth) • Approximation theoretic aspects of real or complex function theory, function theory, difference or differential equations, function spaces, or harmonic analysis • Wavelet Theory and its applications in signal and image processing, and in differential equations with special emphasis on connections between wavelet theory and elements of approximation theory (such as approximation orders, Besov and Sobolev spaces, and so forth) • Gabor (Weyl-Heisenberg) expansions and sampling theory.

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