Greedy Randomized and Maximal Weighted Residual Kaczmarz Methods with Oblique Projection

Wang, Fang; Li, Weiguo; Bao, Wendi; Liu, Li

doi:10.48550/arxiv.2106.13606

Cited by 2 publications

(2 citation statements)

References 38 publications

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“…This is a pseudoinverse free method, which converges to the unique least-norm solution of the consistent linear system (1.1). Inspired by the works [16,31], we modify the greedy probability criterion to the almost-maximal residual principle and propose a new deterministic block Kaczmarz method which is also a deterministic pseudoinverse-free block extension of Motzkin (FBEM) method. In addition, we analyze its convergence and provide numerical results to show that FBEM has better convergence than FDBK and BEM in terms of computing time.…”

Section: Introductionmentioning

confidence: 99%

Faster Deterministic Pseudoinverse-Free Block Extension of Motzkin Method for Large Consistent Linear Systems

Zhang¹

2023

EAJAM

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Recently, a fast deterministic block Kaczmarz (FDBK) method which uses a greedy criterion of the row selections and contains pseudoinverse-free computation is presented. In this work, we introduce a maximum residual rule into FDBK and develop a new block Kaczmarz method which is also considered as a fast deterministic pseudoinverse-free block extension of Motzkin (FBEM) method. In addition, we prove that FBEM converges linearly to the unique least-norm solution of the linear systems. Furthermore, by incorporating the Polyak momentum technique into the FBEM iteration method, we establish an accelerated variant of FBEM (mFBEM) and show its global linear convergence. Numerical examples using artificial and real datasets demonstrate the effectiveness of FBEM as well as mFBEM.

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Section: Introductionmentioning

confidence: 99%

Faster Deterministic Pseudoinverse-Free Block Extension of Motzkin Method for Large Consistent Linear Systems

Zhang¹

2023

EAJAM

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“…The Kaczmarz method with oblique projection were presented in [15], which could be regarded as a orthogonal projection based on two rows. Furthermore, its performance were enhanced by applying greedy strategies in [26]. Wu [27] extended the randomized two-subspace Kaczmarz method for inconsistent linear systems.…”

Section: Introductionmentioning

confidence: 99%

The randomized circumcentered-reflection iteration method for solving consistent linear equations

Yin

2022

Preprint

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After randomly reflecting on two hyperplanes, a new iteration method is established by making use of the circumceter of the reflective points from the viewpoint of geometry. The linear combination could be non-convex when the angle between the hyperplances is small. Theoretical analysis show that the proposed method converges and the convergence rate in expectation is also addressed in detail. The relation between our method and block Kaczmarz method is well discussed. Numerical experiments further verify that the new algorithms is efficient, and outperform the existing randomized Kaczmarz methods and randomized reflection methods in terms of the number of iterations and CPU time, especially when the coefficient matrix has highly coherent rows.

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Greedy Randomized and Maximal Weighted Residual Kaczmarz Methods with Oblique Projection

Cited by 2 publications

References 38 publications

Faster Deterministic Pseudoinverse-Free Block Extension of Motzkin Method for Large Consistent Linear Systems

Faster Deterministic Pseudoinverse-Free Block Extension of Motzkin Method for Large Consistent Linear Systems

The randomized circumcentered-reflection iteration method for solving consistent linear equations

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