Chinese Quarterly Journal of Mathematics ›› 2023, Vol. 38 ›› Issue (2): 145-156.doi: 10.13371/j.cnki.chin.q.j.m.2023.02.004

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The Semi-Convergence Properties of the Generalized Shift-Splitting Methods for Singular Saddle Point Problems

  

  1. College of Mathematics and Physics, Center for Applied Mathematics of Guangxi, Guangxi Minzu
    University
  • Received:2022-04-25 Online:2023-06-30 Published:2023-06-30
  • Contact: Huang Zhuo-Hong (1977-), male, native of Shaoyang, Hunan, associate professor of Guangxi Minzu University, master supervisor, Ph.D, engages in numerical algebra. E-mail:zhuohonghuang@163.com
  • About author: Huang Zhuo-Hong (1977-), male, native of Shaoyang, Hunan, associate professor of Guangxi Minzu University, master supervisor, Ph.D, engages in numerical algebra.
  • Supported by:
    Supported by Guangxi Science and Technology Department Specific Research Project of
    Guangxi for Research Bases and Talents (Grant No. GHIKE-AD23023001); Natural Science Foundation of
    Guangxi Minzu University (Grant No. 2021KJQD01); Xiangsi Lake Young Scholars Innovation Team of Guangxi
    University for Nationalities (Grant No. 2021RSCXSHQN05).

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Abstract:  Recently, some authors (Shen and Shi, 2016) studied the generalized shift-
splitting (GSS) iteration method for singular saddle point problem with nonsymmetric
positive definite (1,1)-block and symmetric positive semidefinite (2,2)-block. In this
paper, we further apply the GSS iteration method to solve singular saddle point problem
with nonsymmetric positive semidefinite (1,1)-block and symmetric positive semidefinite
(2,2)-block, prove the semi-convergence of the GSS iteration method and analyze the
spectral properties of the corresponding preconditioned matrix. Numerical experiment is
given to indicate that the GSS iteration method with appropriate iteration parameters is
effective and competitive for practical use.

Key words: Generalized shift-splitting, Semi-convergence, Positive definite matrix, Gen-
eralized saddle point problems, Krylov subspace methods

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