Sensorless speed control of separately excited DC motor using neuro-fuzzy controller

2013 International Conference on Electrical Communication, Computer, Power, and Control Engineering (ICECCPCE) Pub Date : 2013-12-01 DOI:10.1109/ICECCPCE.2013.6998767

R. Antar, A. Allu, Ahmed J. Ali

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引用次数: 6

Abstract

A neuro-fuzzy controller designed for sensorless speed control of DC motor is presented in this paper. Artificial Neural network is used to solve the problem of tuning a fuzzy logic controller. The neuro-fuzzy controller uses neural network learning technique for tuning membership functions and setting the rule base from the simple data provided to estimate the DC motor speed. The speed of DC motor is estimated based on armature current and terminal voltage sensors to overcome mechanical and physical problems associated with traditional speed sensor. The neuro-fuzzy controller is designed and trained as a model adaptive reference system method. The DC drive circuit is designed, evaluated and modelled by Matlab\Simulink in the forward and reverse motoring operation modes, respectively. The DC drive system is simulated at different speed variation in steady state and dynamic operating conditions. The simulation results illustrate the effectiveness of the controller. The speed response has fast dynamic response and acceptable agreement between the actual, estimated and desired speed.

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用神经模糊控制器控制分励直流电动机无传感器转速

本文设计了一种用于直流电机无传感器速度控制的神经模糊控制器。利用人工神经网络解决了模糊控制器的整定问题。神经模糊控制器利用神经网络学习技术对隶属度函数进行调整，并根据所提供的简单数据设置规则库来估计直流电机的转速。利用电枢电流和端电压传感器对直流电动机进行速度估计，克服了传统速度传感器存在的机械和物理问题。将神经模糊控制器作为一种模型自适应参考系统方法进行设计和训练。利用Matlab\Simulink对直流驱动电路分别在正向和反向两种工作模式下进行了设计、评估和建模。对直流传动系统在稳态和动态工况下的不同转速变化进行了仿真。仿真结果验证了该控制器的有效性。速度响应具有快速的动态响应，并且在实际速度、估计速度和期望速度之间具有可接受的一致性。

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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2013 International Conference on Electrical Communication, Computer, Power, and Control Engineering (ICECCPCE)

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