標題: A positivity preserving inexact Noda iteration for computing the smallest eigenpair of a large irreducible M-matrix
作者: Jia, Zhongxiao
Lin, Wen-Wei
Liu, Ching-Sung
應用數學系
Department of Applied Mathematics
公開日期: 1-Aug-2015
摘要: In this paper, based on the Noda iteration, we present inexact Noda iterations (INI), to find the smallest eigenvalue and the associated positive eigenvector of a large irreducible nonsingular -matrix. The positivity of approximations is critical in applications, and if the approximations lose the positivity then they may be meaningless and could not be interpreted. We propose two different inner tolerance strategies for solving the inner linear systems involved, and prove that the convergence of resulting INI algorithms is globally linear and superlinear with the convergence order , respectively. The proposed INI algorithms are structure preserving and maintains the positivity of approximate eigenvectors. We also revisit the exact Noda iteration and establish a new quadratic convergence result. All the above is first done for the problem of computing the Perron root and the positive Perron vector of an irreducible nonnegative matrix and is then adapted to computing the smallest eigenpair of the irreducible nonsingular -matrix. Numerical examples illustrate that the proposed INI algorithms are practical, and they always preserve the positivity of approximate eigenvectors. We compare them with the Jacobi-Davidson method, the implicitly restarted Arnoldi method and the explicitly restarted Krylov-Schur method, all of which cannot guarantee the positivity of approximate eigenvectors, and illustrate that the overall efficiency of the INI algorithms is competitive with and can be considerably higher than the latter three methods.
URI: http://dx.doi.org/10.1007/s00211-014-0677-2
http://hdl.handle.net/11536/127847
ISSN: 0029-599X
DOI: 10.1007/s00211-014-0677-2
期刊: NUMERISCHE MATHEMATIK
Volume: 130
起始頁: 645
結束頁: 679
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