Your search keyword '"Bo-Rei Peng"' showing total 1 results

1. Optimization of a Fuzzy-Logic-Control-Based MPPT Algorithm Using the Particle Swarm Optimization Technique

Author

Po-Chen Cheng, Yi-Hua Liu, Yu-Shan Cheng, Jia-Wei Huang, and Bo-Rei Peng

Subjects

Engineering, Control and Optimization, fuzzy logic control, Energy Engineering and Power Technology, Tracking (particle physics), lcsh:Technology, Fuzzy logic control, Maximum power point tracking, jel:Q40, Control theory, jel:Q, jel:Q43, jel:Q42, jel:Q41, jel:Q48, jel:Q47, Electrical and Electronic Engineering, Engineering (miscellaneous), jel:Q49, particle swarm optimization, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, Photovoltaic system, Particle swarm optimization, jel:Q0, maximum power point tracking, Function (mathematics), jel:Q4, Transient (oscillation), business, Membership function, Energy (miscellaneous)

Abstract

In this paper, an asymmetrical fuzzy-logic-control (FLC)-based maximum power point tracking (MPPT) algorithm for photovoltaic (PV) systems is presented. Two membership function (MF) design methodologies that can improve the effectiveness of the proposed asymmetrical FLC-based MPPT methods are then proposed. The first method can quickly determine the input MF setting values via the power–voltage (P–V) curve of solar cells under standard test conditions (STC). The second method uses the particle swarm optimization (PSO) technique to optimize the input MF setting values. Because the PSO approach must target and optimize a cost function, a cost function design methodology that meets the performance requirements of practical photovoltaic generation systems (PGSs) is also proposed. According to the simulated and experimental results, the proposed asymmetrical FLC-based MPPT method has the highest fitness value, therefore, it can successfully address the tracking speed/tracking accuracy dilemma compared with the traditional perturb and observe (P&amp, O) and symmetrical FLC-based MPPT algorithms. Compared to the conventional FLC-based MPPT method, the obtained optimal asymmetrical FLC-based MPPT can improve the transient time and the MPPT tracking accuracy by 25.8% and 0.98% under STC, respectively.

Published

2015