A modified gradient‐based iterative algorithm for solving the complex conjugate and transpose matrix equations

In this paper, we first develop the modified gradient‐based iterative (MGI) method for the complex conjugate and transpose matrix equations A1XB1+A2X‾B2+A3XTB3+A4XHB4=E$$ {A}_1X{B}_1+{A}_2\overline{X}{B}_2+{A}_3{X}^T{B}_3+{A}_4{X}^H{B}_4&am...

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Vydané v:	Mathematical methods in the applied sciences Ročník 47; číslo 14; s. 11611 - 11641
Hlavní autori:	Long, Yanping, Cui, Jingjing, Huang, Zhengge, Wu, Xiaowen
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Freiburg Wiley Subscription Services, Inc 30.09.2024
Predmet:	complex conjugate and transpose matrix equation Conjugates Convergence hierarchical identification principle Iterative algorithms modified gradient‐based iterative algorithm real representation
ISSN:	0170-4214, 1099-1476
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Popis
Shrnutí:	In this paper, we first develop the modified gradient‐based iterative (MGI) method for the complex conjugate and transpose matrix equations A1XB1+A2X‾B2+A3XTB3+A4XHB4=E$$ {A}_1X{B}_1+{A}_2\overline{X}{B}_2+{A}_3{X}^T{B}_3+{A}_4{X}^H{B}_4=E $$. By adopting the updated technique, we can make full use of the latest information to compute the next result, which leads to a faster convergence rate. In theory, we apply the real representation of a complex matrix and the vec‐operator to prove the convergence properties. Furthermore, we extend the MGI algorithm to solve the generalized complex conjugate and transpose matrix equations. Then, the necessary and sufficient conditions for convergence of the MGI algorithm are presented. Lastly, three numerical examples are introduced to testify the efficiency of our methods.
Bibliografia:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14
ISSN:	0170-4214 1099-1476
DOI:	10.1002/mma.10146