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Title
Design of self-learning fuzzy sliding mode controllers based on genetic algorithms
Year
85
Semester
1
Publish Date
1997/01/01
Journal Name
Design of self-learning fuzzy sliding mode controllers based on genetic algorithms
Journal Name Other
All Author
林信成 = Lin, Sinn-cheng ; Chen, Yung-yaw
Unit
淡江大學資訊與圖書館學系
Publisher
Volume
Fuzzy sets and systems 86(2), pp. 139-153
Summary
In this paper, genetic algorithms were applied to search a sub-optimal fuzzy rule-base for a fuzzy sliding mode controller. Two types of fuzzy sliding mode controllers based on genetic algorithms were proposed. The fitness functions were defined so that the controllers which can drive and keep the state on the user-defined sliding surface would be assigned a higher fitness value. The sliding surface plays a very important role in the design of a fuzzy sliding mode controller. It can dominate the dynamic behaviors of the control system as well as reduce the size of the fuzzy rule-base. In conventional fuzzy logic control, an increase in either input variables or the associated linguistic labels would lead to the exponential growth of the number of rules. The number of parameters or the equivalent length of strings used in the computations of genetic algorithms for a fuzzy logic controller are usually quite extensive. As a result, the considerable computation load prevents the use of genetic operations in the tuning of membership functions in a fuzzy rule-base. This paper shows that the number of rules in a fuzzy sliding mode controller is a linear function of the number of input variables. The computation load of the inference engine in a fuzzy sliding mode controller is thus smaller than that in a fuzzy logic controller. Moreover, the string length of parameters is shorter in a fuzzy sliding mode controller than in a fuzzy logic controller when the parameters are searched by genetic algorithms. The simulation results showed the efficiency of the proposed approach and demonstrated the applicability of the genetic algorithm in the fuzzy sliding mode controller design.
Keyword
Fuzzy control;Sliding mode;Fuzzy sliding mode;Genetic algorithms
Use Lang
English
ISSN
Journalnature
國內
Included in
UniversityCooperation
CorrespondingAuthor
Reviewsystem
否
Country
中華民國
Open Call for Papers
PublicationStyle
電子版