Switched Reluctance Motor Speed and Torque Control using ACO and PSO Algorithms

Q3 Mathematics

WSEAS Transactions on Systems and Control Pub Date : 2023-11-08 DOI:10.37394/23203.2023.18.38

Hafid Oubouaddi, Adil Brouri, Abdelmalek Ouannou, Fatima Ezzahra El Mansouri, Ali Bouklata, Laila Gadi

引用次数: 0

Abstract

A Switched Reluctance Machine (SRM) is an electric motor that operates based on the principle of magnetic reluctance. In addition, SRMs have several advantages over other types of electric motors. However, SRMs also have some disadvantages. They can produce high noise and vibration levels, especially at high speeds. This paper describes the torque and speed controller for SRM using two techniques, Particle Swarm Optimization (PSO) and Ant Colony Optimization (ACO) combined with a PI corrector. The conventional PI controller is nowadays used in most engineering, being acknowledged for their ability to give up superior control in power electronic systems. Moreover, finding appropriate values for the PI controller is not easy. A solution based on ACO and PSO is used to overcome this problem and simplify tuning the PI controller parameters. Simulation in MATLAB-Simulink was used to demonstrate the effectiveness of the suggested controllers.

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基于蚁群算法和粒子群算法的开关磁阻电机速度和转矩控制

开关磁阻电机(SRM)是一种基于磁阻原理工作的电动机。此外，srm与其他类型的电动机相比有几个优点。然而，srm也有一些缺点。它们会产生很大的噪音和振动，尤其是在高速行驶时。本文采用粒子群算法和蚁群算法结合PI校正器实现了SRM的转矩和转速控制。传统的PI控制器目前在大多数工程中使用，被公认为在电力电子系统中放弃优越控制的能力。此外，为PI控制器找到合适的值并不容易。采用蚁群算法和粒子群算法克服了这一问题，简化了PI控制器参数的整定。在MATLAB-Simulink中进行了仿真，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

WSEAS Transactions on Systems and Control Mathematics-Control and Optimization

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： WSEAS Transactions on Systems and Control publishes original research papers relating to systems theory and automatic control. We aim to bring important work to a wide international audience and therefore only publish papers of exceptional scientific value that advance our understanding of these particular areas. The research presented must transcend the limits of case studies, while both experimental and theoretical studies are accepted. It is a multi-disciplinary journal and therefore its content mirrors the diverse interests and approaches of scholars involved with systems theory, dynamical systems, linear and non-linear control, intelligent control, robotics and related areas. We also welcome scholarly contributions from officials with government agencies, international agencies, and non-governmental organizations.