Title :
Multi-objective particle swarm optimization applied to the design of Wireless Power Transfer systems
Author :
Hasan, Nazmul ; Yilmaz, Tuba ; Zane, Regan ; Pantic, Zeljko
Author_Institution :
Utah State Univ., Logan, UT, USA
Abstract :
This paper proposes a stochastic method - particle swarm optimization (PSO) and Pareto front technique, to conduct a multivariable optimization and design an inductively coupled power transfer system. Previously, design methods have been proposed which require designer experience; they are not only computationally challenging, but also frequently result in suboptimum solutions. The algorithm proposed in this paper models all losses and inductance matrix analytically. We study four common compensation structures, and select a series-parallel topology to design a 200 W experimental prototype optimized with respect to transfer efficiency and VA rating. Experiments and numerical simulations are employed to verify the optimization algorithm.
Keywords :
Pareto optimisation; inductive power transmission; particle swarm optimisation; stochastic processes; Pareto front technique; compensation structures; inductance matrix; inductively coupled power transfer system; multiobjective particle swarm optimization; multivariable optimization; power 200 W; series-parallel topology; stochastic method; wireless power transfer systems; Algorithm design and analysis; Capacitors; Coils; Inductance; Integrated circuit modeling; Optimization; Particle swarm optimization; Electric vehicles; Inductive charging; Inductive power transmission; Pareto optimization; Particle swarm optimization;
Conference_Titel :
Wireless Power Transfer Conference (WPTC), 2015 IEEE
Conference_Location :
Boulder, CO
DOI :
10.1109/WPT.2015.7139138
