DocumentCode
1685561
Title
Development of a self-tuned neuro-fuzzy controller for induction motor drives
Author
Uddin, M. Nasir ; Wen, Hao
Author_Institution
Dept. of Electr. Eng., Lakehead Univ., Thunder Bay, Ont., Canada
Volume
4
fYear
2004
Firstpage
2630
Abstract
In This work a novel adaptive neuro-fuzzy (NF) based speed control of an induction motor (IM) is presented. The proposed neuro-fuzzy controller (NFC) incorporates fuzzy logic laws with a five-layer artificial neural network (ANN) scheme. In this controller only three membership functions are used for each input keeping in mind for low computational burden, which will be suitable for real-time implementation. Furthermore, for the proposed NFC an improved self-tuning method is developed based on the IM theory and its high performance requirements. The main task of the tuning method is to adjust the parameters of the fuzzy logic controller (FLC) in order to minimize the square of the error between actual and reference outputs. This work also demonstrates how the proposed NFC can easily be adjusted to work with different size of induction motors. A complete simulation model for indirect field oriented control of IM incorporating the proposed NFC is developed. The performance of the proposed NFC based IM drive is investigated extensively at different operating conditions in simulation. In order to prove the superiority of the proposed NFC, the results for the proposed controller are also compared to those obtained by a conventional PI controller. The proposed NFC based IM drive is found to be more robust as compared to conventional PI controller based drive and hence found suitable for high performance industrial drive applications.
Keywords
PI control; adaptive control; angular velocity control; electric machine analysis computing; fuzzy control; induction motor drives; machine vector control; neurocontrollers; self-adjusting systems; ANN; IM drive; IM theory; PI controller; adaptive control; artificial neural network; error minimisation; fuzzy logic controller; indirect field oriented control; induction motor drive; industrial drive application; real-time implementation; robust; self-tuned neuro-fuzzy controller; self-tuning method; speed control; Adaptive control; Artificial neural networks; Error correction; Fuzzy logic; Induction motor drives; Induction motors; Noise measurement; Programmable control; Tuning; Velocity control;
fLanguage
English
Publisher
ieee
Conference_Titel
Industry Applications Conference, 2004. 39th IAS Annual Meeting. Conference Record of the 2004 IEEE
ISSN
0197-2618
Print_ISBN
0-7803-8486-5
Type
conf
DOI
10.1109/IAS.2004.1348846
Filename
1348846
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