Fuzzy Adaptive Internal Model Control for a Pneumatic Muscle Actuator

International Conference on Machine Learning and Computing Pub Date : 2019-02-22 DOI:10.1145/3318299.3318360
Xiong Zhang, Jiwei Hu, Zemin Liu
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引用次数: 1

Abstract

Pneumatic muscle actuator is difficult to model and has strong nonlinear and time-varying properties. In this paper, to control a pneumatic muscle actuator a fuzzy adaptive internal model control algorithm (FAIMC) is proposed by combining internal model control and fuzzy control. The FAIMC controller includes a fuzzy inverse internal model controller and a filter. Both the fuzzy model and the inverse model of the process are obtained by T-S fuzzy model identification, and the filter parameters are adjusted online by fuzzy logic. Through the matlab simulation and the experimental platform of the pneumatic muscle actuator, the results show that the FAIMC algorithm can effectively control the pneumatic muscle actuator.
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气动肌肉执行器的模糊自适应内模控制
气动肌肉执行器具有较强的非线性和时变特性,建模困难。针对气动肌肉执行器的控制问题,提出了一种将内模控制与模糊控制相结合的模糊自适应内模控制算法(FAIMC)。FAIMC控制器包括一个模糊逆内模控制器和一个滤波器。通过T-S模糊模型辨识得到过程的模糊模型和逆模型,并通过模糊逻辑在线调整滤波器参数。通过对气动肌肉执行器的matlab仿真和实验平台,结果表明FAIMC算法可以有效地控制气动肌肉执行器。
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International Conference on Machine Learning and Computing
International Conference on Machine Learning and Computing
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