真实约束和干扰下永磁直流电动机模糊控制设计

2009 IEEE Control Applications, (CCA) & Intelligent Control, (ISIC) Pub Date : 2009-07-08 DOI:10.1109/CCA.2009.5281099

J. Velagić, A. Galijasevic

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引用次数: 23

摘要

本文提出了一种永磁直流电动机模糊控制的设计方法。主要目标是实现在负载转矩、死区、测量噪声和非线性等干扰和未建模动态作用下的鲁棒控制器。整个系统包括直流电机、驱动器、测速发电机、外部负载和基于微处理器的系统(dSPACE CLP1004)。这个系统被认为是黑盒。首先在仿真模式下设计了模糊控制器。通过辨识得到了整个系统的模型。然后将该模糊控制器应用到实际的物理控制结构中。在上述约束条件下，比较了模糊控制器在仿真和实验模式下的控制性能。并将模糊控制器所得到的结果与PID控制器得到的结果进行了比较。

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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Design of fuzzy logic control of permanent magnet DC motor under real constraints and disturbances

This paper presents a design of the fuzzy logic control for a permanent magnet DC motor. The main objective is to achieve a robust controller under disturbances and unmodeled dynamics acting, such as load torque, dead zone, measurement noise and nonlinearities. The whole system contains the DC motor, driver, tachogenerator, external load and microprocessor based system (dSPACE CLP1004). This system is considered such as black box. The fuzzy controller is designed in simulation mode first. The model of whole system was obtained through identification procedure. Then this fuzzy controller is included into a real physical control structure. Control performance of the fuzzy controller in both simulation and experimental modes are compared under mentioned constraints. Also, results obtained by the fuzzy controller are compared with the same obtained by PID controller.

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2009 IEEE Control Applications, (CCA) & Intelligent Control, (ISIC)

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