数字摆系统:基于遗传模糊的PID控制器在线整定

S. Mukherjee, Shashank Pandey, S. Mukhopadhyay, N. Hui
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引用次数: 3

摘要

本文研究的主要目的是为倒立摆系统开发一种鲁棒控制器。经典PID控制器的性能在这方面是有效的。然而,PID控制器的有效性取决于它的三个增益值,需要适当的调整。本研究采用了两种不同的调谐方法。在第一种方法中,考虑了基于频率响应的Zeigler Nichols PID整定。在第二种方法中,实现了基于模糊逻辑(FL)的PID控制器增益整定。此外,利用二进制编码遗传算法对基于fl的调谐器进行了性能优化。观察到,基于fl的方法的控制性能明显优于其他方法。这可能是由于基于fl的方法没有明确考虑到模型中存在的非线性和植物不确定性。在MatLab Simulink环境下进行了仿真和实验分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Digital pendulum system: Genetic fuzzy-based online tuning of PID controller
Main aim of this research is to develop a robust controller for an inverted pendulum system. Performance of classical PID controller is found to be effective in this regard. However, effectiveness of PID controller depends on its three gain values that require proper tuning. Two different tuning methods have been adopted in this study. In the first approach, frequency response-based Zeigler Nichols PID tuning has been considered. In the second approach, a Fuzzy Logic (FL)-based tuning of PID controller gains has been implemented. Moreover, performance of FL-based tuner has been optimized using a binary coded genetic algorithm. It is observed that control performance of FL-based method is substantially better compared to the other method. It may be due to the fact that FL-based method is not taking into account the nonlinearities and plant uncertainties present in the model explicitly. Both the simulation and experimental analysis have been carried out in MatLab Simulink environment.
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