Design a PID controller of BLDC motor by using hybrid genetic-immune

In this paper hybridization between two optimization methods that are Genetic Algorithm (GA) and Artificial Immune System (AIS) is presented for determining the optimal proportional-integral derivative (PID) controller parameters, for speed control of a linear brushless DC motor. The brushless DC mo...

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Main Authors: Ali, M.O., Koh, S.P., Chong, K.H., Hamoodi, A.S.
Format: Article
Language:en_US
Published: 2017
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spelling my.uniten.dspace-58262018-01-04T03:32:13Z Design a PID controller of BLDC motor by using hybrid genetic-immune Ali, M.O. Koh, S.P. Chong, K.H. Hamoodi, A.S. In this paper hybridization between two optimization methods that are Genetic Algorithm (GA) and Artificial Immune System (AIS) is presented for determining the optimal proportional-integral derivative (PID) controller parameters, for speed control of a linear brushless DC motor. The brushless DC motor is modeled in Simulink and the Hybrid GA-AIS algorithm is implemented in MATLAB. The capability of overcoming the shortcomings of individual algorithms without losing their advantages makes the hybrid techniques superior to the stand-alone ones based on the dominant purpose of hybridization. The Hybrid GA-AIS method has superior features, stable convergence characteristic and good computational efficiency. The results that get it from hybridization are improved compares with that results can get from GA and AIS alone. The hybrid GA-AIS consists of two processes, the first one is a genetic algorithm (GA) is typically initialized population randomly. Hybridization is faster and more accurate compare with GA AIS alone. © Canadian Center of Science and Education. 2017-12-08T07:26:29Z 2017-12-08T07:26:29Z 2011 Article https://www.scopus.com/record/display.uri?eid=2-s2.0-79956305164&origin=resultslist&sort=plf-f&src=s&sid=38418e993e48c5d2470a09d70cf8abdc&sot en_US Modern Applied Science Volume 5, Issue 1, February 2011, Pages 75-85
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language en_US
description In this paper hybridization between two optimization methods that are Genetic Algorithm (GA) and Artificial Immune System (AIS) is presented for determining the optimal proportional-integral derivative (PID) controller parameters, for speed control of a linear brushless DC motor. The brushless DC motor is modeled in Simulink and the Hybrid GA-AIS algorithm is implemented in MATLAB. The capability of overcoming the shortcomings of individual algorithms without losing their advantages makes the hybrid techniques superior to the stand-alone ones based on the dominant purpose of hybridization. The Hybrid GA-AIS method has superior features, stable convergence characteristic and good computational efficiency. The results that get it from hybridization are improved compares with that results can get from GA and AIS alone. The hybrid GA-AIS consists of two processes, the first one is a genetic algorithm (GA) is typically initialized population randomly. Hybridization is faster and more accurate compare with GA AIS alone. © Canadian Center of Science and Education.
format Article
author Ali, M.O.
Koh, S.P.
Chong, K.H.
Hamoodi, A.S.
spellingShingle Ali, M.O.
Koh, S.P.
Chong, K.H.
Hamoodi, A.S.
Design a PID controller of BLDC motor by using hybrid genetic-immune
author_facet Ali, M.O.
Koh, S.P.
Chong, K.H.
Hamoodi, A.S.
author_sort Ali, M.O.
title Design a PID controller of BLDC motor by using hybrid genetic-immune
title_short Design a PID controller of BLDC motor by using hybrid genetic-immune
title_full Design a PID controller of BLDC motor by using hybrid genetic-immune
title_fullStr Design a PID controller of BLDC motor by using hybrid genetic-immune
title_full_unstemmed Design a PID controller of BLDC motor by using hybrid genetic-immune
title_sort design a pid controller of bldc motor by using hybrid genetic-immune
publishDate 2017
_version_ 1644493785609011200
score 13.214268