Genetic Algorithm optimization of I/O scales and parameters for FLIC in servomotor control

O. Wahyunggoro, N. Saad
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Abstract

Direct Current (DC) servomotors are widely used in robot manipulator applications. Servomotors use feedback controller to control either the speed or the position or both. This paper discusses the modeling and simulation of DC servomotor control built using MATLAB/Simulink, and the analysis of controller performance, namely a Fuzzy Logic parallel Integral Controller (FLIC) in which the I/O scale factors, membership functions, and rules of Fuzzy Logic Controller (FLC) and integrator constant are optimized using Genetic Algorithm (GA) sequentially. The singleton fuzzification is used as a fuzzifier: seven membership functions initially for both input and output of fuzzy logic controller. The center average is used as a defuzzifier. The 32-bit-50-population is used in GA for I/O scales, and 21-bit-30-population is used in GA for membership functions. Two control modes are applied in cascaded to the plant: position control and speed control . Simulation results show that FLIC with GA-optimized is the best performance compared to FLIC, FLC, and FLC with GA.
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遗传算法优化FLIC在伺服电机控制中的I/O尺度和参数
直流(DC)伺服电机在机器人机械臂中应用广泛。伺服电机使用反馈控制器来控制速度或位置或两者兼而有之。本文讨论了利用MATLAB/Simulink建立的直流伺服电机控制系统的建模与仿真,并对控制器性能进行了分析,即采用遗传算法(GA)对模糊逻辑并行积分控制器(FLC)的I/O比例因子、隶属函数、规则和积分器常数进行了顺序优化。采用单态模糊化作为模糊器:模糊控制器的输入和输出初始为7个隶属函数。中心平均值被用作去模糊器。用于I/O规模的遗传算法使用32-bit-50填充,用于隶属函数的遗传算法使用21-bit-30填充。级联装置采用两种控制方式:位置控制和速度控制。仿真结果表明,与FLIC、FLC和带有遗传算法的FLC相比,带有遗传算法优化的FLC性能最好。
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