EIGENVALUE BACKWARD ERRORS OF ROSENBROCK SYSTEMS AND OPTIMIZATION OF SUMS OF RAYLEIGH QUOTIENTS

Ding Lu; Anshul Prajapati; Punit Sharma; Shreemayee Bora

doi:10.1137/24M1673115

EIGENVALUE BACKWARD ERRORS OF ROSENBROCK SYSTEMS AND OPTIMIZATION OF SUMS OF RAYLEIGH QUOTIENTS

Ding Lu
, Anshul Prajapati
, Punit Sharma
, Shreemayee Bora

Mathematics

Producción científica: Article › revisión exhaustiva

Resumen

We address the problem of computing the eigenvalue backward error of the Rosenbrock system matrix under various types of block perturbations. We establish novel characterizations of these backward errors using a class of minimization problems involving the sum of two generalized Rayleigh quotients (SRQ2). For computational purposes and analysis, we reformulate such optimization problems as minimization of a rational function over the joint numerical range of three Hermitian matrices. This reformulation eliminates certain local minimizers of the original SRQ2 minimization and allows for convenient visualization of the solution. Furthermore, by exploiting the convexity within the joint numerical range, we derive a characterization of the optimal solution using a nonlinear eigenvalue problem with eigenvector dependency (NEPv). The NEPv characterization enables a more efficient solution of the SRQ2 minimization compared to traditional optimization techniques. Our numerical experiments demonstrate the benefits and effectiveness of the NEPv approach for SRQ2 minimization in computing eigenvalue backward errors of Rosenbrock systems.

Idioma original	English
Páginas (desde-hasta)	1301-1327
Número de páginas	27
Publicación	SIAM Journal on Matrix Analysis and Applications
Volumen	46
N.º	2
DOI	https://doi.org/10.1137/24M1673115
Estado	Published - 2025

Nota bibliográfica

Publisher Copyright:
Copyright © by SIAM.

Financiación

The work of the first author was partially supported by National Science Foundation grant DMS-2110731. The work of the second author was supported by a CSIR Ph.D. grant by the Ministry of Science and Technology, Government of India. The work of the third author was supported by SERB-CRG grant (CRG/2023/003221) and SERB-MATRICS grant by the Government of India. The work of the fourth author was supported by SERB MATRICS project MTR/2019/000383, Department of Science and Technology, Government of India. We thank both anonymous referees for their valuable comments, which contributed significant improvements in our paper. \ast Received by the editors July 2, 2024; accepted for publication (in revised form) by F. M. Dopico February 26, 2025; published electronically May 9, 2025. https://doi.org/10.1137/24M1673115 Funding: The work of the first author was partially supported by National Science Foundation grant DMS-2110731. The work of the second author was supported by a CSIR Ph.D. grant by the Ministry of Science and Technology, Government of India. The work of the third author was supported by SERB-CRG grant (CRG/2023/003221) and SERB-MATRICS grant by the Government of India. The work of the fourth author was supported by SERB MATRICS project MTR/2019/000383, Department of Science and Technology, Government of India.

Financiadores	Número del financiador
Council of Scientific and Industrial Research, India
Ministry of Science and Technology
Department of Science and Technology, Ministry of Science and Technology, India
National Science Foundation Arctic Social Science Program	DMS-2110731
Science and Engineering Research Board	CRG/2023/003221, MTR/2019/000383

ASJC Scopus subject areas

Analysis

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abstract = "We address the problem of computing the eigenvalue backward error of the Rosenbrock system matrix under various types of block perturbations. We establish novel characterizations of these backward errors using a class of minimization problems involving the sum of two generalized Rayleigh quotients (SRQ2). For computational purposes and analysis, we reformulate such optimization problems as minimization of a rational function over the joint numerical range of three Hermitian matrices. This reformulation eliminates certain local minimizers of the original SRQ2 minimization and allows for convenient visualization of the solution. Furthermore, by exploiting the convexity within the joint numerical range, we derive a characterization of the optimal solution using a nonlinear eigenvalue problem with eigenvector dependency (NEPv). The NEPv characterization enables a more efficient solution of the SRQ2 minimization compared to traditional optimization techniques. Our numerical experiments demonstrate the benefits and effectiveness of the NEPv approach for SRQ2 minimization in computing eigenvalue backward errors of Rosenbrock systems.",

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AU - Lu, Ding

AU - Prajapati, Anshul

AU - Sharma, Punit

AU - Bora, Shreemayee

PY - 2025

Y1 - 2025

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AB - We address the problem of computing the eigenvalue backward error of the Rosenbrock system matrix under various types of block perturbations. We establish novel characterizations of these backward errors using a class of minimization problems involving the sum of two generalized Rayleigh quotients (SRQ2). For computational purposes and analysis, we reformulate such optimization problems as minimization of a rational function over the joint numerical range of three Hermitian matrices. This reformulation eliminates certain local minimizers of the original SRQ2 minimization and allows for convenient visualization of the solution. Furthermore, by exploiting the convexity within the joint numerical range, we derive a characterization of the optimal solution using a nonlinear eigenvalue problem with eigenvector dependency (NEPv). The NEPv characterization enables a more efficient solution of the SRQ2 minimization compared to traditional optimization techniques. Our numerical experiments demonstrate the benefits and effectiveness of the NEPv approach for SRQ2 minimization in computing eigenvalue backward errors of Rosenbrock systems.

KW - Rosenbrock system matrix

KW - eigenvalue backward error

KW - generalized Rayleigh quotient

KW - joint numerical range

KW - nonlinear eigenvalue problem

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EIGENVALUE BACKWARD ERRORS OF ROSENBROCK SYSTEMS AND OPTIMIZATION OF SUMS OF RAYLEIGH QUOTIENTS

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