Adaptive Control for Ionic Polymer-Metal Composite Actuators

Xinkai Chen; Chun-Yi Su

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Adaptive Control for Ionic Polymer-Metal Composite Actuators

机译：离子聚合物金属复合驱动器的自适应控制

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摘要

This paper discusses the modeling and control of the ionic polymer-metal composite (IPMC) actuators which have many promising applications in biomechatronics. A novel mathematical model in continuous-time domain of the IPMC actuator, being a stable second-order dynamical system preceded by a nonlinear hysteresis representation, is proposed. An adaptive controller is formulated for the IPMC actuator based on the proposed model. The proposed adaptive control law ensures the global stability of the controlled IPMC system, and the position error of the IPMC actuator can be theoretically guaranteed to converge to zero. The effectiveness of the proposed model and the superiority of the proposed control to the traditional proportional-integral-derivative control are verified by experimental results.

机译：本文讨论了离子聚合物-金属复合材料（IPMC）执行器的建模和控制，该执行器在生物机电一体化中具有许多有希望的应用。提出了一种新型的IPMC执行器连续时间域数学模型，该模型是一个稳定的二阶动力学系统，其后为非线性磁滞表示。基于所提出的模型为IPMC执行器制定了自适应控制器。所提出的自适应控制律确保了受控IPMC系统的整体稳定性，并且理论上可以确保IPMC执行器的位置误差收敛到零。实验结果证明了所提模型的有效性以及所提控制相对于传统比例-积分-微分控制的优越性。

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来源
《IEEE Transactions on Systems, Man, and Cybernetics》 |2016年第10期|1468-1477|共10页
作者
Xinkai Chen; Chun-Yi Su;
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作者单位

Department of Electronic Information Systems, Shibaura Institute of Technology, Saitama, Japan;

College of Mechanical Engineering and Automation, Huaqiao University, Xiamen, China;

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正文语种 eng
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关键词
Hysteresis; Actuators; Mathematical model; Adaptation models; Polymers; Adaptive control;

机译：迟滞;执行器;数学模型;适应模型;聚合物;自适应控制;

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专利

1. Modeling and adaptive inverse control of hysteresis and creep in ionic polymer-metal composite actuators [J] . Hao LN, Li Z Smart Materials & Structures . 2010,第2期

机译：离子聚合物-金属复合执行器的磁滞和蠕变建模和自适应逆控制
2. Wireless actuation and control of ionic polymer-metal composite actuator using a microwave link [J] . J.S. Leea W. Yima* C. Baeb, K.J. Kimc International Journal of Smart and Nano Materials . 2012,第4期

机译：使用微波链路对离子聚合物-金属复合致动器进行无线致动和控制
3. A new approach to develop ionic polymer-metal composites (IPMC) actuator: Fabrication and control for active catheter systems [J] . Fang BK, Ju MS, Lin CCK Sensors and Actuators, A. Physical . 2007,第2期

机译：开发离子聚合物金属复合材料（IPMC）执行器的新方法：主动导管系统的制造和控制
4. Adaptive Control for Ionic Polymer-Metal Composite Actuator Based on Continuous-Time Approach [C] . Xinkai Chen IFAC World Congress . 2014

机译：基于连续时间方法的离子聚合物 - 金属复合致动器的自适应控制
5. A Technique for the Optimization of Actuation Characteristics of Ionic Polymer-Metal Composites [D] . Varma, Vaughn. 2018

机译：离子型聚合物金属复合材料致动特性的优化技术
6. Biomimetic Beetle-Inspired Flapping Air Vehicle Actuated by Ionic Polymer-Metal Composite Actuator [O] . Yang Zhao, Di Xu, Jiazheng Sheng, 2018

机译：离子聚合物-金属复合驱动器驱动仿生甲壳虫拍打飞行器
7. Controlled actuation of Nafion-based Ionic Polymer-metal Composites (IPMCs) with Ethylene Glycol as Solvent [O] . Shahram Zamani, Sia Nemat-nasser 2015

机译：以乙二醇为溶剂控制Nafion基离子聚合物 - 金属复合材料（IpmC）的驱动
8. Ionic Polymer-Metal Composites (IPMCs) as Biomimetic Sensors, Actuators and Artificial Muscles: A Review [R] . Shahinpoor, M., Bar-Cohen, Y., Simpson, J. O., 1998

机译：离子聚合物 - 金属复合材料（IpmCs）作为仿生传感器，执行器和人工肌肉：综述

Adaptive Control for Ionic Polymer-Metal Composite Actuators

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