A Learning Method for Neural Networks Based on a Pseudoinverse Technique

A Learning Method for Neural Networks Based on a Pseudoinverse Technique

A theoretical formulation of a fast learning method based on a pseudoinverse technique is presented. The efficiency and robustness of the method are verified with the help of an Exclusive OR problem and a dynamic system identification of a linear single degree of freedom mass–spring problem. It is o...

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Main Authors: Chinmoy Pal, Ichiro Hagiwara, Naoki Kayaba, Shin Morishita
Format: Article
Language:English
Published: Hindawi Limited 1996-01-01
Series:Shock and Vibration
Online Access:http://dx.doi.org/10.3233/SAV-1996-3306
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spelling doaj-642bfa7d18084adbb164f139b1f19e372020-11-24T22:27:32ZengHindawi LimitedShock and Vibration1070-96221875-92031996-01-013320120910.3233/SAV-1996-3306A Learning Method for Neural Networks Based on a Pseudoinverse TechniqueChinmoy Pal0Ichiro Hagiwara1Naoki Kayaba2Shin Morishita3Nissan Motor Corporation Research Center, Natsushima-cho, Yokosuka 237, JapanNissan Motor Corporation Research Center, Natsushima-cho, Yokosuka 237, JapanYokohama National University, Dept. of Naval Architecture and Ocean Engineering, 156 Tokiwadai, Hodogaya-ku, Yokohama 240, JapanYokohama National University, Dept. of Naval Architecture and Ocean Engineering, 156 Tokiwadai, Hodogaya-ku, Yokohama 240, JapanA theoretical formulation of a fast learning method based on a pseudoinverse technique is presented. The efficiency and robustness of the method are verified with the help of an Exclusive OR problem and a dynamic system identification of a linear single degree of freedom mass–spring problem. It is observed that, compared with the conventional backpropagation method, the proposed method has a better convergence rate and a higher degree of learning accuracy with a lower equivalent learning coefficient. It is also found that unlike the steepest descent method, the learning capability of which is dependent on the value of the learning coefficient ν, the proposed pseudoinverse based backpropagation algorithm is comparatively robust with respect to its equivalent variable learning coefficient. A combination of the pseudoinverse method and the steepest descent method is proposed for a faster, more accurate learning capability.http://dx.doi.org/10.3233/SAV-1996-3306
collection DOAJ
language English
format Article
sources DOAJ
author Chinmoy Pal
Ichiro Hagiwara
Naoki Kayaba
Shin Morishita
spellingShingle Chinmoy Pal
Ichiro Hagiwara
Naoki Kayaba
Shin Morishita
A Learning Method for Neural Networks Based on a Pseudoinverse Technique
Shock and Vibration
author_facet Chinmoy Pal
Ichiro Hagiwara
Naoki Kayaba
Shin Morishita
author_sort Chinmoy Pal
title A Learning Method for Neural Networks Based on a Pseudoinverse Technique
title_short A Learning Method for Neural Networks Based on a Pseudoinverse Technique
title_full A Learning Method for Neural Networks Based on a Pseudoinverse Technique
title_fullStr A Learning Method for Neural Networks Based on a Pseudoinverse Technique
title_full_unstemmed A Learning Method for Neural Networks Based on a Pseudoinverse Technique
title_sort learning method for neural networks based on a pseudoinverse technique
publisher Hindawi Limited
series Shock and Vibration
issn 1070-9622
1875-9203
publishDate 1996-01-01
description A theoretical formulation of a fast learning method based on a pseudoinverse technique is presented. The efficiency and robustness of the method are verified with the help of an Exclusive OR problem and a dynamic system identification of a linear single degree of freedom mass–spring problem. It is observed that, compared with the conventional backpropagation method, the proposed method has a better convergence rate and a higher degree of learning accuracy with a lower equivalent learning coefficient. It is also found that unlike the steepest descent method, the learning capability of which is dependent on the value of the learning coefficient ν, the proposed pseudoinverse based backpropagation algorithm is comparatively robust with respect to its equivalent variable learning coefficient. A combination of the pseudoinverse method and the steepest descent method is proposed for a faster, more accurate learning capability.
url http://dx.doi.org/10.3233/SAV-1996-3306
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