The power method and beyond

Zhong Zhi Bai; Wen Ting Wu; Galina V. Muratova

doi:10.1016/j.apnum.2020.03.021

The power method and beyond

Zhong Zhi Bai^*, Wen Ting Wu, Galina V. Muratova

^*Corresponding author for this work

School of Mathematics and Statistics

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

For computing the dominant eigenvalue and the corresponding eigenvector of a real and symmetric matrix, inspired by the classic and powerful power method, we construct a general paradigm of nonstationary Richardson methods and gradient descent methods, called also as the parameterized power methods, and establish their convergence theory. This paradigm also includes the power method as a special case. Both theoretical analysis and numerical experiments show that the parameterized power methods can result in iteration methods that may be much more effective than the power method, provided the involved iteration parameters are chosen appropriately.

Original language	English
Pages (from-to)	29-42
Number of pages	14
Journal	Applied Numerical Mathematics
Volume	164
DOIs	https://doi.org/10.1016/j.apnum.2020.03.021
Publication status	Published - Jun 2021

Keywords

Convergence theory
Parameterization
Power method
Symmetric eigen-problem

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10.1016/j.apnum.2020.03.021

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title = "The power method and beyond",

abstract = "For computing the dominant eigenvalue and the corresponding eigenvector of a real and symmetric matrix, inspired by the classic and powerful power method, we construct a general paradigm of nonstationary Richardson methods and gradient descent methods, called also as the parameterized power methods, and establish their convergence theory. This paradigm also includes the power method as a special case. Both theoretical analysis and numerical experiments show that the parameterized power methods can result in iteration methods that may be much more effective than the power method, provided the involved iteration parameters are chosen appropriately.",

keywords = "Convergence theory, Parameterization, Power method, Symmetric eigen-problem",

author = "Bai, {Zhong Zhi} and Wu, {Wen Ting} and Muratova, {Galina V.}",

note = "Publisher Copyright: {\textcopyright} 2020 IMACS",

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TY - JOUR

T1 - The power method and beyond

AU - Bai, Zhong Zhi

AU - Wu, Wen Ting

AU - Muratova, Galina V.

PY - 2021/6

Y1 - 2021/6

N2 - For computing the dominant eigenvalue and the corresponding eigenvector of a real and symmetric matrix, inspired by the classic and powerful power method, we construct a general paradigm of nonstationary Richardson methods and gradient descent methods, called also as the parameterized power methods, and establish their convergence theory. This paradigm also includes the power method as a special case. Both theoretical analysis and numerical experiments show that the parameterized power methods can result in iteration methods that may be much more effective than the power method, provided the involved iteration parameters are chosen appropriately.

AB - For computing the dominant eigenvalue and the corresponding eigenvector of a real and symmetric matrix, inspired by the classic and powerful power method, we construct a general paradigm of nonstationary Richardson methods and gradient descent methods, called also as the parameterized power methods, and establish their convergence theory. This paradigm also includes the power method as a special case. Both theoretical analysis and numerical experiments show that the parameterized power methods can result in iteration methods that may be much more effective than the power method, provided the involved iteration parameters are chosen appropriately.

KW - Convergence theory

KW - Parameterization

KW - Power method

KW - Symmetric eigen-problem

UR - http://www.scopus.com/inward/record.url?scp=85083289683&partnerID=8YFLogxK

U2 - 10.1016/j.apnum.2020.03.021

DO - 10.1016/j.apnum.2020.03.021

M3 - Article

AN - SCOPUS:85083289683

SN - 0168-9274

VL - 164

SP - 29

EP - 42

JO - Applied Numerical Mathematics

JF - Applied Numerical Mathematics

ER -

The power method and beyond

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Keywords

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