基于MFO-WC的模糊PI控制器在自主微网系统负荷频率控制中的应用

2022 8th International Conference on Control, Decision and Information Technologies (CoDIT) Pub Date : 2022-05-17 DOI:10.1109/CoDIT55151.2022.9803998

Abdessamade Bouaddi, R. Rabeh, M. Ferfra

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引用次数: 1

摘要

本文提出了一种具有可控源和不可控源的自主微电网的负荷频率分析数学模型。利用ITAE适应度函数，提出了一种新的基于飞蛾火焰和水循环优化的混合算法(MFO-WC)，对模糊逻辑比例积分(FLPI)控制器参数进行调优，以最小化微电网的频率偏差。本研究考虑了各种场景来说明所建议的控制器的优越性。在这些情景中，仅对负荷、风能和太阳能的快速变化以及参数不确定性进行了评估。通过与PSO、MFO、WC和GA等算法的比较，证明了MFO-WC算法的优越性。在MATLAB /SIMULINK中建立了系统的频率模型，在不同场景下的仿真结果证实了(MFO-WC)调谐FLPI比其他技术具有更好的性能。

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MFO-WC Based Fuzzy logic PI Controller for Load Frequency Control of Autonomous Microgrid System

In This paper, a mathematical model of an autonomous micro-grid (MG) with both uncontrollable and controllable sources is proposed for load frequency analysis.Using the ITAE fitness function, a new hybrid algorithm based on Moth Flame and Water Cycle Optimization (MFO-WC) is used to tune Fuzzy logic proportional-integral (FLPI) controller parameters in order to minimize frequency deviation of the proposed microgrid. This study considers a variety of scenarios to illustrate the superiority of the suggested controller. Only a rapid change in load, wind and solar power chanes, as well as parametric uncertainty, have been evaluated in the scenarios. The superiority of MFO-WC is demonstrated by comparison with other algorithms such as PSO, MFO, WC and GA. Frequency model of system was developed in MATLAB /SIMULINK and the simulation results for different scenarios confirms that (MFO-WC) tuned FLPI is having better performance compared to other techniques.

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2022 8th International Conference on Control, Decision and Information Technologies (CoDIT)

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