Design of the speed controller for sensorless electric drives based on AI techniques: a comparative study

Artificial Intelligence in Engineering Pub Date : 2000-04-01 DOI:10.1016/S0954-1810(00)00010-8

D. Kukolj , F. Kulic , E. Levi

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引用次数: 33

Abstract

The paper investigates applicability of different artificial intelligence (AI) techniques in the design of a speed controller for electric drives. A speed-sensorless drive system is considered. A controller structure consisting of a load torque observer, a speed estimator and a speed predictor is developed. Next, different AI based approaches to speed controller design are investigated. The speed controllers based on (1) feed-forward neural network, (2) neuro-fuzzy network, and (3) self-organising Takagi–Sugeno (TS) rule based model are designed. A comparative analysis of the drive behaviour with these three types of AI based speed controllers is performed. In addition, a comparison is made with respect to the drive performance obtained with a conventional optimised PI controller. A detailed simulation study of a number of transients indicates that the best performance, in terms of accuracy and computational complexity, is offered by the self-organising Takagi–Sugeno controller. The controllers are developed and tested for a plant comprising a variable-speed separately excited DC motor.

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基于人工智能技术的无传感器电驱动速度控制器设计:比较研究

本文研究了不同的人工智能(AI)技术在电力驱动速度控制器设计中的适用性。研究了一种无速度传感器驱动系统。提出了一种由负载转矩观测器、速度估计器和速度预测器组成的控制器结构。接下来，研究了不同的基于人工智能的速度控制器设计方法。设计了基于(1)前馈神经网络、(2)神经模糊网络和(3)自组织Takagi-Sugeno (TS)规则模型的速度控制器。对这三种基于人工智能的速度控制器的驱动行为进行了比较分析。此外，还对传统优化PI控制器的驱动性能进行了比较。对多个瞬态的详细仿真研究表明，自组织Takagi-Sugeno控制器在精度和计算复杂度方面具有最佳性能。针对某厂变速分励直流电动机设计并进行了试验。

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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Artificial Intelligence in Engineering

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