Design of Multivariate PID Controller for Power Networks Using GEA and PSO

Journal of Robotics and Control (JRC) Pub Date : 2023-03-30 DOI:10.18196/jrc.v4i1.15682

Mahmoud Zadehbagheri, A. Ma’arif, R. Ildarabadi, Mehdi Ansarifard, Iswanto Suwarno

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Abstract

The issue of proper modeling and control for industrial systems is one of the challenging issues in the industry. In addition, in recent years, PID controller design for linear systems has been widely considered. The topic discussed in some of the articles is mostly speed control in the field of electric machines, where various algorithms have been used to optimize the considered controller, and always one of the most important challenges in this field is designing a controller with a high degree of freedom. In these researches, the focus is more on searching for an algorithm with more optimal results than others in order to estimate the parameters in a more appropriate way. There are many techniques for designing a PID controller. Among these methods, meta-innovative methods have been widely studied. In addition, the effectiveness of these methods in controlling systems has been proven. In this paper, a new method for grid control is discussed. In this method, the PID controller is used to control the power systems, which can be controlled more effectively, so that this controller has four parameters, and to determine these parameters, the optimization method and evolutionary algorithms of genetics (EGA) and PSO are used. One of the most important advantages of these algorithms is their high speed and accuracy. In this article, these algorithms have been tested on a single-machine system, so that the single-machine system model is presented first, then the PID controller components will be examined. In the following, according to the transformation function matrix and the relative gain matrix, suitable inputs for each of the outputs are determined. At the end, an algorithm for designing PID controller for multivariable MIMO systems is presented. To show the effectiveness of the proposed controller, a simulation was performed in the MATLAB environment and the results of the simulations show the effectiveness of the proposed controller.

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基于GEA和粒子群算法的电网多变量PID控制器设计

工业系统的适当建模和控制问题是工业中具有挑战性的问题之一。此外，近年来，线性系统的PID控制器设计也得到了广泛的研究。在一些文章中讨论的主题主要是电机领域的速度控制，其中各种算法已被用于优化所考虑的控制器，并且始终是该领域最重要的挑战之一是设计具有高自由度的控制器。在这些研究中，更多的是寻找一种比其他算法具有更多最优结果的算法，以便更合适地估计参数。设计PID控制器的技术有很多。其中，元创新方法得到了广泛的研究。此外，这些方法在控制系统中的有效性也得到了证明。本文讨论了一种新的网格控制方法。在该方法中，采用PID控制器对电力系统进行控制，使其具有4个参数，并采用遗传优化方法和进化算法(EGA)和粒子群优化算法确定这些参数。这些算法最重要的优点之一是速度快、精度高。在本文中，这些算法已经在单机系统上进行了测试，因此首先给出了单机系统模型，然后将检查PID控制器组件。下面，根据变换函数矩阵和相对增益矩阵，确定每个输出的合适输入。最后，提出了一种多变量MIMO系统的PID控制器设计算法。为了验证所提控制器的有效性，在MATLAB环境下进行了仿真，仿真结果验证了所提控制器的有效性。

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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来源期刊

Journal of Robotics and Control (JRC)

CiteScore

6.30

自引率

0.00%

发文量