Title :
Hybridization of Particle Swarm Optimization with Biogeography-Based Optimization for Reactive Power and Voltage Control
Author :
Mandal, Barun ; Roy, Provas Kumar ; Mandal, Sanjoy
Author_Institution :
Electr. Eng. Dept., Kalyani Gov. Eng. Coll., Kalyani, India
Abstract :
In this paper, a new method based on the combination of particle swarm optimization (PSO) and biogeography-based optimization (BBO) algorithm for voltage/reactive power control and simultaneously loss reduction in power systems is presented. The purpose is to provide a solution, which does both voltage improvement and loss reduction for power system. This hybridization technique enhances the exploration and exploitation capability of the swarm. To validate the effectiveness the proposed HPSOBBO method is applied on IEEE 118-bus system and its performance is compared to conventional PSO, general passive congregation PSO (GPAC), local passive congregation PSO (LPAC), coordinated aggregation (CA) and Interior point based OPF (IP-OPF). The numerical results show that HPSOBBO could find high-quality solutions with more reliability and efficiency.
Keywords :
particle swarm optimisation; power system control; reactive power control; voltage control; BBO algorithm; CA; GPAC; HPSOBBO method; IEEE 118-bus system; IP-OPF; LPAC; biogeography-based optimization; coordinated aggregation; general passive congregation PSO; interior point based OPF; local passive congregation PSO; loss reduction; particle swarm optimization hybridization; power systems; reactive power control; voltage control; voltage improvement; Linear programming; Minimization; Optimization; Reactive power; Sociology; Statistics; Voltage control; Biogeography-based optimization; Evolutionary algorithm; Hybridization; Optimal reactive power dispatch; Particle swarm optimization;
Conference_Titel :
Emerging Applications of Information Technology (EAIT), 2014 Fourth International Conference of
DOI :
10.1109/EAIT.2014.26
