从矩阵-向量乘积中恢复结构化矩阵

IF 1.8 3区数学 Q1 MATHEMATICS Numerical Linear Algebra with Applications Pub Date : 2023-09-22 DOI:10.1002/nla.2531

Diana Halikias, Alex Townsend

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引用次数: 0

摘要

能否从矩阵与向量的乘积中有效地恢复一个矩阵?如果有，需要多少?本文描述了从矩阵-向量乘积中恢复具有已知结构的矩阵的算法，例如三对角线、Toeplitz、Toeplitz类和分层低秩矩阵。特别地，我们推导了一种随机算法，用于从矩阵向量积中以高概率恢复未知的分层低秩矩阵，其中为非对角线块的秩，并且是一个小的过采样参数。我们通过仔细地为我们的矩阵-向量乘积构建随机输入向量来实现这一点，这些矩阵-向量乘积利用了矩阵的层次结构。虽然现有的分层矩阵恢复算法使用基于消去的递归“剥离”过程，但我们的方法使用递归投影过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Structured matrix recovery from matrix‐vector products

Abstract Can one recover a matrix efficiently from only matrix‐vector products? If so, how many are needed? This article describes algorithms to recover matrices with known structures, such as tridiagonal, Toeplitz, Toeplitz‐like, and hierarchical low‐rank, from matrix‐vector products. In particular, we derive a randomized algorithm for recovering an unknown hierarchical low‐rank matrix from only matrix‐vector products with high probability, where is the rank of the off‐diagonal blocks, and is a small oversampling parameter. We do this by carefully constructing randomized input vectors for our matrix‐vector products that exploit the hierarchical structure of the matrix. While existing algorithms for hierarchical matrix recovery use a recursive “peeling” procedure based on elimination, our approach uses a recursive projection procedure.

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来源期刊

Numerical Linear Algebra with Applications 数学-数学

CiteScore

3.40

自引率

2.30%

发文量

审稿时长

12 months

期刊介绍： Manuscripts submitted to Numerical Linear Algebra with Applications should include large-scale broad-interest applications in which challenging computational results are integral to the approach investigated and analysed. Manuscripts that, in the Editor’s view, do not satisfy these conditions will not be accepted for review. Numerical Linear Algebra with Applications receives submissions in areas that address developing, analysing and applying linear algebra algorithms for solving problems arising in multilinear (tensor) algebra, in statistics, such as Markov Chains, as well as in deterministic and stochastic modelling of large-scale networks, algorithm development, performance analysis or related computational aspects. Topics covered include: Standard and Generalized Conjugate Gradients, Multigrid and Other Iterative Methods; Preconditioning Methods; Direct Solution Methods; Numerical Methods for Eigenproblems; Newton-like Methods for Nonlinear Equations; Parallel and Vectorizable Algorithms in Numerical Linear Algebra; Application of Methods of Numerical Linear Algebra in Science, Engineering and Economics.