Modeling and Control of IPMC for Micro-manipulation

机译：IPMC的微操纵建模与控制

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The deformation of the cantilever caused by manipulation force is one of the most major nonlinearities and uncertainties during manipulation. It causes difficulties in precisely controlling the tip position, which will cause the tip to miss the position of the object. In order to solve this problem, in this paper, the dynamics model of piezoelectric smart cantilever beam based on ionic polymer metal composite (IPMC) as material of the active probe is researched. The active vibration optional control method based on LQR of piezoelectric smart cantilever beam is designed. The control system is simulated. The simulation results verified the validity of the model and effectiveness of the controller.

机译：操纵力引起的悬臂变形是操纵过程中最主要的非线性和不确定性之一。这会导致难以精确控制尖端位置，这将导致尖端错过对象的位置。为了解决这一问题，本文研究了基于离子聚合物金属复合材料（IPMC）作为有源探头材料的压电智能悬臂梁的动力学模型。设计了基于压电智能悬臂梁LQR的主动振动可选控制方法。控制系统是模拟的。仿真结果验证了模型的有效性和控制器的有效性。

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来源
《World Congress on Intelligent Control and Automation;WCICA 2010》|2010年|p.2401-2405|共5页
会议地点 Jinan(CN);Jinan(CN)
作者
Dingyu Xue; Zhen Chen; Lina Hao; Xinhe Xu; Yanmei Liu;
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作者单位

School of Information Science Engineering Northeastern University Shenyang , Liaoning Province, China;

School of Information Science Engineering Northeastern University Shenyang , Liaoning Province, China;

School of Information Science Engineering Northeastern University Shenyang , Liaoning Province, China;

School of Information Science Engineering Northeastern University Shenyang , Liaoning Province, China;

School of Automation Shenyang University of Aeronautics and Astronautics Shenyang, Liaoning Province, China;

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中图分类人工智能理论;人工智能理论;
关键词
piezoelectric smart cantilever beam; IPMC; Modeling; LQR; controller;

机译：压电智能悬臂梁； IPMC；建模； LQR；控制器;

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1. Robust control of a cell micro-manipulation system with IPMC actuators [J] . Andrew J. McDaid, Kean C. Aw, Sheng Q. Xie, International Journal of Intelligent Systems Technologies and Applications . 2013,第2期

机译：具有IPMC执行器的细胞微处理系统的鲁棒控制
2. Quasi-Static Tip Positioning of Multi-Segmented IPMC for Micro-Manipulation following Euler-Bernoulli and Pseudo-Rigid Body Model [J] . DIBAKAR BANDOPADHYA Journal of Reinforced Plastics and Composites . 2009,第6期

机译：根据Euler-Bernoulli和伪刚体模型对多段IPMC进行微操纵的准静态尖端定位
3. Modelling and control of an IPMC actuated flexible structure: A lumped port Hamiltonian approach [J] . Andrea Mattioni, Yongxin Wu, Hector Ramirez, Control Engineering Practice . 2020,第Auga期

机译：IPMC致动柔性结构的建模与控制：集体港口汉密尔顿途径
4. Modeling and Control of IPMC for Micro-manipulation [C] . Yanmei Liu, Dingyu Xue, Zhen Chen, World Congress on Intelligent Control and Automation . 2010

机译：IPMC用于微操纵的建模与控制
5. Modeling and optimal control of curvatures in IPMC's. [D] . Tripathi, Smriti. 2014

机译：IPMC曲率的建模和最佳控制。
6. Multiphysics Simulator for the IPMC Actuator: Mathematical Model Finite Difference Scheme Fast Numerical Algorithm and Verification [O] . Anton P. Broyko, Ivan K. Khmelnitskiy, Eugeny A. Ryndin, 2020

机译：用于IPMC执行器的多体模拟器：数学模型有限差分方案快速数值算法和验证
7. Modeling and Control of IPMC Actuators Based on LSSVM-NARX Paradigm [O] . Liangsong Huang, Yu Hu, Yun Zhao, 2019

机译：基于LSSVM-NARX范式的IPMC执行器的建模与控制

Modeling and Control of IPMC for Micro-manipulation

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