On comparing the performance of Genetic Algorithm optimized PI and fractional order PI controller for power quality enhancement

S. Srivastava, Astha Manaktala, Kamayani Sadhwani, M. Gupta
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引用次数: 4

Abstract

This paper deals with the application of a optimization technique inspired by natural evolution, namely Genetic Algorithm (GA) for the design of Fractional order Proportional and Integral (FOPI) based DSTATCOM (Distributed Static Compensator) and ELC (Electronic Load Controller). The GA technique helps search efficiently the optimal parameters of the FOPI controller. Conventional controllers use integral order control which is less robust as compared to fractional order control. This paper is based on a novel application of fractional order controller optimized by genetic algorithm for power quality improvement using DSTATCOM and ELC in a power system. With the help of modelling carried out in a MATLAB based environment and a set of simulation results, the superiority of the designed FOPI over PI (Proportional — Integral) based DSTATCOM and ELC controllers used in power distribution system is affirmed and a comparative study in terms of overshoots and undershoots is presented.
比较遗传算法优化PI控制器与分数阶PI控制器在提高电能质量方面的性能
本文研究了一种受自然进化启发的优化技术——遗传算法(GA)在基于分数阶比例与积分(FOPI)的分布式静态补偿器(DSTATCOM)和电子负载控制器(ELC)设计中的应用。遗传算法有助于有效地搜索FOPI控制器的最优参数。传统的控制器采用积分阶控制,与分数阶控制相比,其鲁棒性较差。本文基于遗传算法优化分数阶控制器在DSTATCOM和ELC系统电能质量改善中的新应用。通过MATLAB环境下的建模和一组仿真结果,肯定了所设计的FOPI比基于PI (Proportional - Integral)的DSTATCOM和ELC控制器在配电系统中的优越性,并在过调量和欠调量方面进行了对比研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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