Paper Info
Title
A Hybrid Differential Artificial Bee Algorithm based tuning of fractional order controller for PMSM drive
Abstract
This article proposes a novel Hybrid Differential Artificial Bee Colony Algorithm (HDABCA), which combines Differential Evolution with Artificial Bee Colony Algorithm (ABCA), for designing the fractional order proportional-integral controller (FO-PI) in a surface-mounted Permanent Magnet Synchronous Motor (PMSM) drive. FOPI controllers' parameters involve proportionality constant, integral constant and integral order, and hence its design is more intricate than that of usual integral-order proportional-integral controller. Here the synthesis of controller is done according to the objective function considered. In order to digitally realize the fractional order PI controller, an Oustaloup approximation method is used. Simulations and comparisons of proposed HD-ABCA with conventional methods demonstrate the superiority of the proposed approach, especially for actuating fractional order plants.
Year
DOI
Venue
2011
10.1109/NaBIC.2011.6089408
Nature and Biologically Inspired Computing
Keywords
Field
DocType
control system synthesis,mathematical programming,three-term control,Oustaloup approximation method,PI controller,PMSM drive,differential evolution,fractional order controller tuning,fractional order proportional integral controller,hybrid differential artificial bee algorithm,integral order proportional integral controller,surface mounted permanent magnet synchronous motor drive
Artificial bee colony algorithm,Control theory,Mathematical optimization,Algorithm design,Torque,PID controller,Computer science,Control theory,Differential evolution,Permanent magnet synchronous motor
Conference
ISBN
Citations 
PageRank 
978-1-4577-1122-0
6
0.53
References 
Authors
5
3
Name
Order
Citations
PageRank
Anguluri Rajasekhar112011.05
Millie Pant2304.55
Ajith Abraham38954729.23