Adjustment of Membership Functions, Generation and Reduction of Fuzzy Rule Base From Numerical Data

Authors

  • Raouf Ketata National Institute of Applied Sciences and Technologies of Tunis
  • Hatem Bellaaj Research unit on Intelligent Control, design and Optimisation of Complex System (ICOS) National School of Engineers of Sfax
  • Mohamed Chtourou Research unit on Intelligent Control, design and Optimisation of Complex System (ICOS) National School of Engineers of Sfax
  • Mohamed Ben Amer Habib Bourguiba Hospital of Sfax, TUNISIA

Keywords:

fuzzy inference system, rule base generation and reduction, similarity, numerical data

Abstract

In this paper we introduce a new approach for adjustment of membership functions, generation, and reduction of fuzzy rule base from data in the same time. The proposed approach consists of five steps: First, generate fuzzy rules from data using Mendel & Wang Method introduced in [1]. Second, calculate the degree of similarity between rules. Third, measure the distance between the numerical values which induces similar rules. Four, if the distance is greater than base value then merge membership functions. Finally, regenerate rules from data with new fuzzy sets. This approach is applied to truck backer-upper control and Liver trauma diagnostic. A comparative study with a simple Mendel Wang method shows the advantages of the developed approach.

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Published

2017-09-12

How to Cite

Ketata, R., Bellaaj, H., Chtourou, M., & Amer, M. B. (2017). Adjustment of Membership Functions, Generation and Reduction of Fuzzy Rule Base From Numerical Data. Malaysian Journal of Computer Science, 20(2), 147–169. Retrieved from https://ijps.um.edu.my/index.php/MJCS/article/view/6305

Issue

Vol. 20 No. 2 (2007): Malaysian Journal of Computer Science

Section

Articles