A multi-layer fuzzy model based on fuzzy-rule clustering for prediction tasks

Fan, Zongwen; Chiong, Raymond; Hu, Zhongyi; Lin, Yuqing

doi:10.1016/j.neucom.2020.04.031

Author(s)

Fan, Zongwen

Chiong, Raymond

Hu, Zhongyi

Lin, Yuqing

Publication Date

2020

Abstract

<p>Fuzzy systems are widely used for solving complex and non-linear problems that cannot be addressed using precise mathematical models. Their performance, however, is critically affected by how they are constructed as well as their fuzzy rule base. Inspired by neural networks that apply a multi-layer structure to improve their performance, we propose a multi-layer fuzzy model with modified fuzzy rules to improve the approximation ability of fuzzy systems without losing efficiency. In practical applications, the fuzzy rule base extracted from numerical data is often incomplete, which makes a fuzzy system less robust. To address this problem, a non-linear function is used as the consequent of each fuzzy rule based on fuzzy-rule clustering to enhance the approximation ability of the fuzzy rule base. In addition, exact matching of fuzzy rules is employed based on the fuzzy rule's antecedent for prediction. By doing so, only one rule will be triggered in each layer, which is very efficient. Experimental results from two simulated functions and three practical applications confirm that our proposed multi-layer fuzzy model can outperform other well-established fuzzy models in terms of accuracy and robustness without sacrificing efficiency.</p>

Citation

Neurocomputing, v.410, p. 114-124

ISSN

1872-8286

0925-2312

Link

https://hdl.handle.net/1959.11/61403

Language

en

Publisher

Elsevier BV

Title

A multi-layer fuzzy model based on fuzzy-rule clustering for prediction tasks

Type of document

Journal Article

Entity Type

Publication

Author(s)	Fan, Zongwen Chiong, Raymond Hu, Zhongyi Lin, Yuqing
Publication Date	2020
Abstract	<p>Fuzzy systems are widely used for solving complex and non-linear problems that cannot be addressed using precise mathematical models. Their performance, however, is critically affected by how they are constructed as well as their fuzzy rule base. Inspired by neural networks that apply a multi-layer structure to improve their performance, we propose a multi-layer fuzzy model with modified fuzzy rules to improve the approximation ability of fuzzy systems without losing efficiency. In practical applications, the fuzzy rule base extracted from numerical data is often incomplete, which makes a fuzzy system less robust. To address this problem, a non-linear function is used as the consequent of each fuzzy rule based on fuzzy-rule clustering to enhance the approximation ability of the fuzzy rule base. In addition, exact matching of fuzzy rules is employed based on the fuzzy rule's antecedent for prediction. By doing so, only one rule will be triggered in each layer, which is very efficient. Experimental results from two simulated functions and three practical applications confirm that our proposed multi-layer fuzzy model can outperform other well-established fuzzy models in terms of accuracy and robustness without sacrificing efficiency.</p>
Citation	Neurocomputing, v.410, p. 114-124
ISSN	1872-8286 0925-2312
Link	https://hdl.handle.net/1959.11/61403
Language	en
Publisher	Elsevier BV
Title	A multi-layer fuzzy model based on fuzzy-rule clustering for prediction tasks
Type of document	Journal Article
Entity Type	Publication

A multi-layer fuzzy model based on fuzzy-rule clustering for prediction tasks

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