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Training of extreme learning machine network based on novel generalized inertial forward-reflected-backward splitting algorithm

Training of extreme learning machine network based on novel generalized inertial forward-reflected-backward splitting algorithm
Training of extreme learning machine network based on novel generalized inertial forward-reflected-backward splitting algorithm
In this paper, we consider the monotone inclusion problems involving three operators using a novel generalized inertial forward-reflected-backward splitting algorithm (IRFBA) in real Hilbert spaces. We propose a new double inertial extrapolation step that enhances the acceleration of the splitting algorithm and presents a trade-off between the parameters of the inertial step. In contrast to the existing literature, the proposed method does not require a prior estimate of the Lipschitz constant of the operators in the summand. Afterward, the weak and linear convergence of the method is studied under mild conditions. We validate the performance of our proposed IFRBA algorithm using a real-world machine learning dataset. To assess its effectiveness, we compared our algorithm with three other state-of-the-art training algorithms. In the comparison, we formulated regression problems based on extreme learning machine concepts and conducted multiple experiments to examine the robustness of our IFRBA algorithm thoroughly. The analysis of various metrics, including average mean square error, coefficient of determination, average mean absolute error, average root Mean square error, and convergence speed, consistently demonstrated the efficient performance of our proposed IFRBA algorithm.
Splitting algorithms, extreme learning machine, inertial method, monotone inclusion, neural network
0233-1934
Li, Tiexiang
3c1563f0-891a-444b-bee7-4e6aceb44c2f
Jolaoso, Lateef O.
102467df-eae0-4692-8668-7f73e8e02546
Adegoke, Muideen
c9cb633e-ae59-417a-beb7-ccc0f352f368
Shehu, Yekini
d16e54b6-ead5-4fc5-a531-9cec0789473c
Yao, Jen-Chih
2e71c71c-79dd-4564-b977-83e1e5f18c1e
Li, Tiexiang
3c1563f0-891a-444b-bee7-4e6aceb44c2f
Jolaoso, Lateef O.
102467df-eae0-4692-8668-7f73e8e02546
Adegoke, Muideen
c9cb633e-ae59-417a-beb7-ccc0f352f368
Shehu, Yekini
d16e54b6-ead5-4fc5-a531-9cec0789473c
Yao, Jen-Chih
2e71c71c-79dd-4564-b977-83e1e5f18c1e

Li, Tiexiang, Jolaoso, Lateef O., Adegoke, Muideen, Shehu, Yekini and Yao, Jen-Chih (2025) Training of extreme learning machine network based on novel generalized inertial forward-reflected-backward splitting algorithm. Optimization. (doi:10.1080/02331934.2025.2523918).

Record type: Article

Abstract

In this paper, we consider the monotone inclusion problems involving three operators using a novel generalized inertial forward-reflected-backward splitting algorithm (IRFBA) in real Hilbert spaces. We propose a new double inertial extrapolation step that enhances the acceleration of the splitting algorithm and presents a trade-off between the parameters of the inertial step. In contrast to the existing literature, the proposed method does not require a prior estimate of the Lipschitz constant of the operators in the summand. Afterward, the weak and linear convergence of the method is studied under mild conditions. We validate the performance of our proposed IFRBA algorithm using a real-world machine learning dataset. To assess its effectiveness, we compared our algorithm with three other state-of-the-art training algorithms. In the comparison, we formulated regression problems based on extreme learning machine concepts and conducted multiple experiments to examine the robustness of our IFRBA algorithm thoroughly. The analysis of various metrics, including average mean square error, coefficient of determination, average mean absolute error, average root Mean square error, and convergence speed, consistently demonstrated the efficient performance of our proposed IFRBA algorithm.

Text
Generalized_Inertial_Forward_Reflected_Backward_Splitting_Algorithm_for_Three_Operators (10) - Accepted Manuscript
Restricted to Repository staff only until 26 June 2026.
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Accepted/In Press date: 3 June 2025
Published date: 26 June 2025
Keywords: Splitting algorithms, extreme learning machine, inertial method, monotone inclusion, neural network
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Identifiers

Local EPrints ID: 504771
URI: http://eprints.soton.ac.uk/id/eprint/504771
DOI: doi:10.1080/02331934.2025.2523918
ISSN: 0233-1934
PURE UUID: cfdb59d2-e8a7-4442-9f2f-4e03f194db37
ORCID for Lateef O. Jolaoso: ORCID iD orcid.org/0000-0002-4838-7465

Catalogue record

Date deposited: 18 Sep 2025 17:01
Last modified: 19 Sep 2025 02:07

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Contributors

Author: Tiexiang Li
Author: Lateef O. Jolaoso ORCID iD
Author: Muideen Adegoke
Author: Yekini Shehu
Author: Jen-Chih Yao

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