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Auteurs principaux: Sato, Hiroyuki, Yamakawa, Yuya, Aihara, Kensuke
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2304.02197
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author Sato, Hiroyuki
Yamakawa, Yuya
Aihara, Kensuke
author_facet Sato, Hiroyuki
Yamakawa, Yuya
Aihara, Kensuke
contents For optimization problems on Riemannian manifolds, many types of globally convergent algorithms have been proposed, and they are often equipped with the Riemannian version of the Armijo line search for global convergence. Such existing methods need to compute the value of a retraction mapping regarding the search direction several times at each iteration; this may result in high computational costs, particularly if computing the value of the retraction is expensive. To address this issue, this study focuses on Riemannian submanifolds of the Euclidean spaces and proposes a novel Riemannian line search that achieves lower computational cost by incorporating a new strategy that computes the retraction only when inevitable. A class of Riemannian optimization algorithms, including the steepest descent and Newton methods, with the new line search strategy is proposed and proved to be globally convergent. Furthermore, numerical experiments on solving optimization problems on several types of Riemannian submanifolds illustrate that the proposed methods are superior to the standard Riemannian Armijo line search-based methods.
format Preprint
id arxiv_https___arxiv_org_abs_2304_02197
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Modified Armijo line search in optimization on Riemannian submanifolds with reduced computational cost
Sato, Hiroyuki
Yamakawa, Yuya
Aihara, Kensuke
Optimization and Control
For optimization problems on Riemannian manifolds, many types of globally convergent algorithms have been proposed, and they are often equipped with the Riemannian version of the Armijo line search for global convergence. Such existing methods need to compute the value of a retraction mapping regarding the search direction several times at each iteration; this may result in high computational costs, particularly if computing the value of the retraction is expensive. To address this issue, this study focuses on Riemannian submanifolds of the Euclidean spaces and proposes a novel Riemannian line search that achieves lower computational cost by incorporating a new strategy that computes the retraction only when inevitable. A class of Riemannian optimization algorithms, including the steepest descent and Newton methods, with the new line search strategy is proposed and proved to be globally convergent. Furthermore, numerical experiments on solving optimization problems on several types of Riemannian submanifolds illustrate that the proposed methods are superior to the standard Riemannian Armijo line search-based methods.
title Modified Armijo line search in optimization on Riemannian submanifolds with reduced computational cost
topic Optimization and Control
url https://arxiv.org/abs/2304.02197