Locally supported, quasi-interpolatory bases for the approximation of functions on graphs

IF 1 3区数学 Q1 MATHEMATICS Linear Algebra and its Applications Pub Date : 2024-09-17 DOI:10.1016/j.laa.2024.09.011

E. Fuselier , J.P. Ward

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引用次数: 0

Abstract

Graph-based approximation methods are of growing interest in many areas, including transportation, biological and chemical networks, financial models, image processing, network flows, and more. In these applications, often a basis for the approximation space is not available analytically and must be computed. We propose perturbations of Lagrange bases on graphs, where the Lagrange functions come from a class of functions analogous to classical splines. The basis functions we consider have local support, with each basis function obtained by solving a small energy minimization problem related to a differential operator on the graph. We present

ℓ_{\infty}

error estimates between the local basis and the corresponding interpolatory Lagrange basis functions in cases where the underlying graph satisfies an assumption on the connections of vertices where the function is not known, and the theoretical bounds are examined further in numerical experiments. Included in our analysis is a mixed-norm inequality for positive definite matrices that is tighter than the general estimate

{‖ A ‖}_{\infty} \leq \sqrt{n} {‖ A ‖}_{2}

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用于逼近图上函数的局部支持准插值基

基于图的近似方法在许多领域越来越受到关注，包括交通、生物和化学网络、金融模型、图像处理、网络流等。在这些应用中，近似空间的基础往往无法通过分析获得，而必须通过计算获得。我们提出了图上拉格朗日基的扰动，其中的拉格朗日函数来自一类类似于经典样条函数的函数。我们考虑的基函数具有局部支持，每个基函数都是通过求解与图上微分算子相关的小能量最小化问题获得的。在底层图满足顶点连接假设、函数未知的情况下，我们提出了局部基函数和相应插值拉格朗日基函数之间的 ℓ∞ 误差估计，并在数值实验中进一步检验了理论边界。我们的分析包括正定矩阵的混合正不等式，它比一般估计值‖A‖∞≤n‖A‖2 更严格。

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来源期刊

Linear Algebra and its Applications 数学-应用数学

CiteScore

2.20

自引率

9.10%

发文量

333

审稿时长

13.8 months

期刊介绍： Linear Algebra and its Applications publishes articles that contribute new information or new insights to matrix theory and finite dimensional linear algebra in their algebraic, arithmetic, combinatorial, geometric, or numerical aspects. It also publishes articles that give significant applications of matrix theory or linear algebra to other branches of mathematics and to other sciences. Articles that provide new information or perspectives on the historical development of matrix theory and linear algebra are also welcome. Expository articles which can serve as an introduction to a subject for workers in related areas and which bring one to the frontiers of research are encouraged. Reviews of books are published occasionally as are conference reports that provide an historical record of major meetings on matrix theory and linear algebra.

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