Robust control of uncertain asymmetric hysteretic nonlinear systems with adaptive neural network disturbance observer

IF 7.2 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Applied Soft Computing Pub Date : 2024-10-29 DOI:10.1016/j.asoc.2024.112387
Yangming Zhang , Qi Yao , Biao Luo , Ning Chen
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Abstract

In this article, a novel command-filtered adaptive control scheme is proposed for uncertain asymmetric hysteretic nonlinear systems with unknown external disturbances, where the hysteresis nonlinearities are described by an asymmetric Bouc–Wen model. Firstly, the hysteresis model uncertainties are considered, a robust hysteresis state observer is constructed to compensate the asymmetric hysteresis nonlinearity. Secondly, both tracking errors and prediction errors are employed to develop the adaptive neural networks (NNs) for approximating unknown nonlinear functions of the system, where the acquisition of the prediction error avoids the need to differentiate the state measurements. Then, a nonlinear disturbance observer with the filtered control input and system states is constructed to estimate a total disturbance resulting from both the NN approximation errors and the external disturbances. With the help of filtering differentiators, a command-filtered backstepping control law is designed by using the adaptive NN approximators, the disturbance observers, and the hysteretic compensator. The effects of the filtering errors, the disturbance estimation errors, and the hysteresis compensation error on the closed-loop stability are rigorously analyzed. Finally, the proposed control algorithm is applied to a piezoelectric micro-displacement servo system, the real-time experimental results indicate that the relative average error and the relative maximal error of the sinusoidal trajectory tracking are 0.04% and 0.06%, respectively. Compared with the existing adaptive robust control algorithm, a significant improvement on the tracking accuracy is achieved.
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利用自适应神经网络干扰观测器实现不确定非对称滞后非线性系统的鲁棒控制
本文针对具有未知外部干扰的不确定非对称滞后非线性系统提出了一种新的指令滤波自适应控制方案,其中滞后非线性由非对称布克文模型描述。首先,考虑滞后模型的不确定性,构建鲁棒滞后状态观测器来补偿非对称滞后非线性。其次,利用跟踪误差和预测误差来开发用于逼近系统未知非线性函数的自适应神经网络(NNs),其中预测误差的获取避免了区分状态测量值的需要。然后,利用滤波控制输入和系统状态构建非线性扰动观测器,以估计由神经网络近似误差和外部扰动产生的总扰动。在滤波微分器的帮助下,利用自适应 NN 近似器、扰动观测器和滞后补偿器设计了指令滤波反步态控制法。严格分析了滤波误差、扰动估计误差和滞后补偿误差对闭环稳定性的影响。最后,将所提出的控制算法应用于压电微位移伺服系统,实时实验结果表明,正弦轨迹跟踪的相对平均误差和相对最大误差分别为 0.04% 和 0.06%。与现有的自适应鲁棒控制算法相比,跟踪精度有了显著提高。
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来源期刊
Applied Soft Computing
Applied Soft Computing 工程技术-计算机:跨学科应用
CiteScore
15.80
自引率
6.90%
发文量
874
审稿时长
10.9 months
期刊介绍: Applied Soft Computing is an international journal promoting an integrated view of soft computing to solve real life problems.The focus is to publish the highest quality research in application and convergence of the areas of Fuzzy Logic, Neural Networks, Evolutionary Computing, Rough Sets and other similar techniques to address real world complexities. Applied Soft Computing is a rolling publication: articles are published as soon as the editor-in-chief has accepted them. Therefore, the web site will continuously be updated with new articles and the publication time will be short.
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