Khawaja Abdul Waheed, Kamari Nor Azwan Mohamed, Abd Halim Syahirah, Zulkifley Mohd Asyraf, Ansari Shaheer, Khalid Khairuddin, Khalil Muhammad Amir
Department of Electrical Engineering, Faculty of Engineering & Technology, Bahauddin Zakariya University, Multan, 60800, Pakistan.
Department of Electrical, Electronic & System Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600, Bangi, Malaysia.
Sci Rep. 2025 Jan 25;15(1):3255. doi: 10.1038/s41598-025-85325-3.
This study aims to establish a thyristor-controlled series compensator (TCSC) equipped with a proportional integral derivative with filter (PIDF) controller by using a futuristic optimisation technique called evolutionary programming sine cosine algorithm (EPSCA) with multiobjective function (MOF). EPSCA is developed by merging evolutionary programming and the sine cosine algorithm. Three stability indicators, i.e. damping ratio (DR), damping factor (DF) and the greatest imaginary component of the system eigenvalues at a certain ratio, are combined to form the MOF. EPSCA is designed to optimise TCSC-PIDF controller variables to reap a peerless solution with a futuristic MOF as an objective function (OF). All simulations are performed using a linearised dynamical system of the TCSC-single machine infinite bus system. In addition, the TCSC-PIDF controller using EPSCA based on MOF is compared with other indicators, such as DR and DF, as the OF. The MOF-EPSCA-derived PIDF damping controller manifests substantial ameliorations in settling times and overshoot in comparison with DR-EPSCA, DF-EPSCA, and PIDF-U. The suggested method of optimisation, which combines a futuristic multiobjective function and damping controller model, validates the robustness of the damping controller's design for the power system.
本研究旨在通过使用一种名为带有多目标函数(MOF)的进化编程正弦余弦算法(EPSCA)的未来优化技术,建立一种配备带滤波器的比例积分微分(PIDF)控制器的晶闸管控制串联补偿器(TCSC)。EPSCA是通过融合进化编程和正弦余弦算法而开发的。三个稳定性指标,即阻尼比(DR)、阻尼因子(DF)以及系统特征值在特定比例下的最大虚部,被组合起来形成多目标函数。EPSCA旨在优化TCSC - PIDF控制器变量,以获得以未来多目标函数(OF)为目标的无与伦比的解决方案。所有仿真均使用TCSC - 单机无穷大系统的线性化动态系统进行。此外,将基于MOF使用EPSCA的TCSC - PIDF控制器与其他指标,如以DR和DF作为目标函数(OF)进行比较。与基于DR - EPSCA、DF - EPSCA和PIDF - U的情况相比,由MOF - EPSCA得出的PIDF阻尼控制器在调节时间和超调方面表现出显著改善。所建议的将未来多目标函数与阻尼控制器模型相结合的优化方法,验证了电力系统阻尼控制器设计的鲁棒性。
