基于滞后算子的自适应卡尔曼前馈控制,用于混合磁阻致动器的扫描运动。

Yunlang Xu, Liang Guo, Datong Pan, Haibo Zhou, Ji-An Duan
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引用次数: 0

摘要

混合磁阻致动器(HRA)已在扫描运动任务中得到广泛应用。然而,与位置相关的刚度波动、滞后、涡流和磁通泄漏等非线性扰动会严重影响控制性能。为了提高基于 HRA 的系统在扫描运动中的控制性能,本文引入了一种自适应前馈方法,即基于 Chua 算子的卡尔曼前馈补偿器 (COKFC),旨在减轻这些非线性扰动,并以 PID 控制器作为中心控制元件。在 COKFC 方法中,采用了 Chua 算子来有效捕捉反向滞后行为。然后制定一个基于 Chua 的时变前馈补偿模型,以表示 HRA 固有的非线性扰动的反演。改进的卡尔曼滤波器用于实时调整前馈补偿模型中的时变参数。介绍了该控制策略的设计程序。对基于 HRA 的舞台(HRA-BS)进行了实验评估,并将所提出的方法与几种先进的控制方法进行了比较。实验结果表明,所提出的 COKFC 方法对 HRA-BS 的扫描运动具有卓越的控制性能,突出了其在实际应用中的有效性。
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Hysteresis operator-based adaptive Kalman feedforward control for the scanning motion of hybrid reluctance actuators.

The hybrid reluctance actuator (HRA) has achieved widespread application in scanning motion tasks. However, the nonlinear perturbations arising from position-dependent stiffness fluctuations, hysteresis, eddy, and flux leakage can significantly affect the control performance. To enhance the control performance of HRA-based systems in scanning motion, this paper introduces an adaptive feedforward method, known as the Chua operator-based Kalman feedforward compensator (COKFC), which aims to mitigate these nonlinear perturbations, with a PID controller serving as the central control element. In the COKFC approach, a Chua operator is employed to effectively capture the inverse hysteresis behavior. A Chua-based time-varying feedforward compensation model is then formulated to represent the inversion of the nonlinear perturbations inherent in the HRA. An improved Kalman filter is utilized for the real-time adaptation of the time-varying parameters within the feedforward compensation model. The design procedure for this control strategy is presented. Experimental evaluations are conducted on an HRA-based stage (HRA-BS), and comparisons are made between the proposed method and several advanced control methods. The experimental results demonstrate that the proposed COKFC method exhibits superior control performance for the scanning motion of the HRA-BS, highlighting its effectiveness in practical applications.

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