Optimization of fuzzy logic controller in the converter of a standalone solar power system using the firefly algorithm
Pegah Nouri, Mehrdad Ahmadi Kamarposhti, Tohid Nouri, Mehdi Radmehr

TL;DR
This paper uses the Firefly Algorithm to optimize a fuzzy logic controller in solar power systems, improving voltage regulation and reducing harmonic distortion.
Contribution
The novel use of the Firefly Algorithm to optimize fuzzy controller membership functions for better performance in solar power systems.
Findings
The Firefly Algorithm-optimized controller achieved a total harmonic distortion of 2.89%.
The optimized controller had a mean square error of 0.0071, outperforming traditional controllers.
The method showed superior dynamic response under various load conditions.
Abstract
In single photovoltaic (PV) systems, inverters are highly important for transforming DC voltage into AC voltage with predetermined amplitude and frequency control. A good inverter must provide a stable output voltage and low harmonic distortion during potential load variation, and it must recover its stability in an efficient manner while maintaining the quality of power during disturbances. Fixed controllers usually do not provide satisfactory performance because of the inherent nonlinear characteristics of the systems, and this drives the adoption of intelligent control techniques. One area of interest is fuzzy logic controllers (FLCs), which can provide a good control measure of nonlinear dynamics and do not require use of a specific mathematical model. This study introduces the Firefly Algorithm to optimize fuzzy controller membership functions for improved voltage regulation,…
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Taxonomy
TopicsPhotovoltaic System Optimization Techniques · Fuzzy Logic and Control Systems · Microgrid Control and Optimization
