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Cooperative Multi Swarm Optimization with an Intelligent Broadcaster for Pid Controller Design


Affiliations
1 1Heritage Institute of Technology, Kolkata, India
2 Institute of Radio Physics & Electronics, Kolkata, India
 

Particle swarm optimization (PSO) is a very efficient optimization tool for solving many scientific and engineering problems. In this paper, an intelligent broadcaster controlled co-operative multi-swarm PSO (IBC-MPSO) has been proposed which improves the fitness and robustness of the PSO technique. The multi-swarm approach with a novel broadcasting mechanism provides diversification in the searching and the involvement of neighborhood operator improves the exploitation of searching of the swarm. The co-operative methodology along with an intelligent broadcaster as a whole achieves good accuracy of the optimization result for the numerical problems. The efficiency of IBC-MPSO optimization technique is comprehensively evaluated for standard popular benchmark optimization problems and compared with several state-of- the-arts PSO. Further, IBC-MPSO is applied for tuning the parameters of a PID controlled both for AVR system and DC motor based system. Result of the experiments illustrates the effectiveness of the IBC-MPSO technique.

Keywords

Particle Swarm Optimization, Diversity, PID Controller, AVR System, Dc Motor.
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  • Cooperative Multi Swarm Optimization with an Intelligent Broadcaster for Pid Controller Design

Abstract Views: 480  |  PDF Views: 171

Authors

P. Agarwalla
1Heritage Institute of Technology, Kolkata, India
S. Mukhopadhyay
Institute of Radio Physics & Electronics, Kolkata, India

Abstract


Particle swarm optimization (PSO) is a very efficient optimization tool for solving many scientific and engineering problems. In this paper, an intelligent broadcaster controlled co-operative multi-swarm PSO (IBC-MPSO) has been proposed which improves the fitness and robustness of the PSO technique. The multi-swarm approach with a novel broadcasting mechanism provides diversification in the searching and the involvement of neighborhood operator improves the exploitation of searching of the swarm. The co-operative methodology along with an intelligent broadcaster as a whole achieves good accuracy of the optimization result for the numerical problems. The efficiency of IBC-MPSO optimization technique is comprehensively evaluated for standard popular benchmark optimization problems and compared with several state-of- the-arts PSO. Further, IBC-MPSO is applied for tuning the parameters of a PID controlled both for AVR system and DC motor based system. Result of the experiments illustrates the effectiveness of the IBC-MPSO technique.

Keywords


Particle Swarm Optimization, Diversity, PID Controller, AVR System, Dc Motor.

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DOI: https://doi.org/10.21843/reas%2F2016%2F70-79%2F158778