Speed control of DC motor using Fuzzy Logic Controller

2017 International Conference on Communication, Control, Computing and Electronics Engineering (ICCCCEE) Pub Date : 1900-01-01 DOI:10.1109/ICCCCEE.2017.7867673

Yasser Ali Almatheel, A. Abdelrahman

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引用次数: 46

Abstract

In this paper, DC motor speed is controlled using PID controller and fuzzy logic controller. PID controller requires a mathematical model of the system while fuzzy logic controller base on experience via rule-based knowledge. Design of fuzzy logic controller requires many design decisions, for example rule base and fuzzification. The FLC has two input, one of these inputs is the speed error and the second is the change in the speed error. There are 49 fuzzy rules which are designed for the fuzzy logic controller. The center of gravity method is used for the defuzzificztion. Fuzzy logic controller uses mamdani system which employs fuzzy sets in consequent part. PID controller chooses its parameters base on trial and error method. PID and FLC are investigated with the help of MATLAB / SIMULINK package program simulation. It is founded that FLC is more difficult in design comparing with PID controller, but it has an advance to be more suitable to satisfy non-linear characteristics of DC motor. The results shows that the fuzzy logic has minimum transient and steady state parameters, which shows that FLC is more efficiency and effectiveness than PID controller.

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用模糊控制器控制直流电机的转速

本文采用PID控制器和模糊控制器对直流电机转速进行控制。PID控制器需要建立系统的数学模型，而模糊控制器则是通过基于规则的知识来建立系统的经验。模糊控制器的设计需要许多设计决策，如规则库和模糊化。FLC有两个输入，其中一个是速度误差第二个是速度误差的变化量。为模糊控制器设计了49条模糊规则。采用重心法进行去模糊化。模糊控制器采用mamdani系统，在后续部分采用模糊集。PID控制器的参数选择基于试错法。利用MATLAB / SIMULINK包程序仿真对PID和FLC进行了研究。研究发现，FLC在设计上比PID控制器困难，但在满足直流电动机的非线性特性方面又有了进步。结果表明，模糊逻辑具有最小的暂态和稳态参数，表明FLC比PID控制器更高效和有效。

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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2017 International Conference on Communication, Control, Computing and Electronics Engineering (ICCCCEE)

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