Hysteresis Observation in Smart Material Actuators with Unstructured Uncertainty

2019 27th Iranian Conference on Electrical Engineering (ICEE) Pub Date : 2019-04-01 DOI:10.1109/IranianCEE.2019.8786570

S. F. Alem, I. Izadi, F. Sheikholeslam

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Abstract

Hysteresis phenomenon, which is prevalent in smart material actuators can affect control of the actuator, and should be compensated in the controller. In this paper its value is formulated as an internal state of the actuator, that is modeled by the Bouc-Wen model. A state observer, based on the position measurement is presented to estimate the hysteresis, which is not measurable by commercial sensors. The observer and convergence proof are presented using Lyapunov theorem, and the necessary constraints on design parameters are extracted. To facilitate these constraints, a lower order observer using velocity measurement is presented. The latter observer shows better transient and faster response. Both of the proposed observers are robust against model uncertainty. The effect of uncertainty in the estimated value is quantified and validated. An experimental setup using a piezoelectric actuator and an integrated strain gauge sensor is used as the test setup. Simulation and experimental results verify the effectiveness of the proposed schemes.

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具有非结构不确定性的智能材料执行器的迟滞观测

智能材料执行器中普遍存在的滞后现象会影响执行器的控制，需要在控制器中进行补偿。本文将其值表示为执行器的内部状态，并采用Bouc-Wen模型对其进行建模。提出了一种基于位置测量的状态观测器来估计商用传感器无法测量的磁滞。利用李雅普诺夫定理给出了观测器和收敛性证明，并提取了设计参数的必要约束条件。为了满足这些约束条件，提出了一种基于速度测量的低阶观测器。后一种观测器表现出更好的瞬态响应和更快的响应。所提出的两种观测器对模型不确定性都具有鲁棒性。对不确定度对估计值的影响进行了量化和验证。实验装置采用压电致动器和集成应变计传感器作为试验装置。仿真和实验结果验证了所提方案的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 27th Iranian Conference on Electrical Engineering (ICEE)

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