English

A Weighted Randomized Sparse Kaczmarz Method for Solving Linear Systems

Numerical Analysis 2023-06-13 v1 Numerical Analysis Optimization and Control

Abstract

The randomized sparse Kaczmarz method, designed for seeking the sparse solutions of the linear systems Ax=bAx=b, selects the ii-th projection hyperplane with likelihood proportional to ai22\|a_{i}\|_2^2, where aiTa_{i}^T is ii-th row of AA. In this work, we propose a weighted randomized sparse Kaczmarz method, which selects the ii-th projection hyperplane with probability proportional to ai,xkbip\lvert\langle a_{i},x_{k}\rangle-b_{i}\rvert^p, where 0<p<0<p<\infty, for possible acceleration. It bridges the randomized Kaczmarz and greedy Kaczmarz by parameter pp. Theoretically, we show its linear convergence rate in expectation with respect to the Bregman distance in the noiseless and noisy cases, which is at least as efficient as the randomized sparse Kaczmarz method. The superiority of the proposed method is demonstrated via a group of numerical experiments.

Keywords

Cite

@article{arxiv.2306.06813,
  title  = {A Weighted Randomized Sparse Kaczmarz Method for Solving Linear Systems},
  author = {Lu Zhang and Ziyang Yuan and Hongxia Wang and Hui Zhang},
  journal= {arXiv preprint arXiv:2306.06813},
  year   = {2023}
}

Comments

Dr. Lionel N. Tondji kindly reminded us that their 2021 conference paper shares some similarity with ours. We feel very sorry that we had not noticed their work before we submitted our paper. Here, we claim that the method was independently proposed by both of us. Moreover, we also consider an exact step-size version and the effect of the weighted parameter with detailed theory

R2 v1 2026-06-28T11:02:29.587Z