Adaptive Control of Positioning Systems With Hysteresis Based on Magnetic Shape Memory Alloys

Riccardi L.; Naso D.; Turchiano B.; Janocha H.

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Adaptive Control of Positioning Systems With Hysteresis Based on Magnetic Shape Memory Alloys

机译：基于磁性形状记忆合金的磁滞定位系统自适应控制

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This paper considers a control strategy for systems affected by time-varying hysteretic phenomena, such as those observed in magnetic shape memory alloys subject to temperature variations. The proposed controller is based on a scheme that combines feedforward cancellation of the hysteresis using a modified Prandtl–Ishlinskii inverse model with a closed-loop control law designed to address the cancellation errors. Both the inverse hysteresis model and the closed-loop law feature adjustable parameters that are adapted online by means of learning laws based on Lyapunov design tools. The effectiveness of the proposed approach is confirmed by experiments on a prototypical micrometric positioning system containing a bar of MSMA as main actuating element.

机译：本文考虑了受时变磁滞现象影响的系统的控制策略，例如在受温度变化影响的磁性形状记忆合金中观察到的那些。所提出的控制器基于一种方案，该方案结合了使用改进的Prandtl–Ishlinskii逆模型和设计用于解决消除误差的闭环控制律的磁滞的前馈消除。逆磁滞模型和闭环定律均具有可调整的参数，这些参数可通过基于Lyapunov设计工具的学习定律在线进行调整。通过以MSMA杆为主要驱动元件的原型测微定位系统进行实验，证实了该方法的有效性。

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来源
《IEEE Transactions on Control Systems Technology》 |2013年第6期|2011-2023|共13页
作者
Riccardi L.; Naso D.; Turchiano B.; Janocha H.;
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作者单位

Laboratory of Process Automation, Saarland University, Saarbrüecken, Germany|c|;

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正文语种 eng
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Adaptive control; Prandtl–Ishlinskii models; hysteresis; magnetic shape memory alloys; smart materials;

机译：自适应控制;Prandtl–Ishlinskii模型;磁滞现象;磁性形状记忆合金;智能材料;

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专利

1. Precise position control of shape memory alloy actuator using inverse hysteresis model and model reference adaptive control system [J] . Mohammad Reza Zakerzadeh, Hassan Sayyaadi Mechatronics: The Science of Intelligent Machines . 2013,第8期

机译：基于逆滞模型和模型参考自适应控制系统的形状记忆合金执行器精确位置控制
2. Hysteresis Model of Magnetically Controlled Shape Memory Alloy Based on a PID Neural Network [J] . Zhou Miaolei, Zhang Qi Magnetics, IEEE Transactions on . 2015,第11期

机译：基于PID神经网络的磁控形状记忆合金磁滞模型。
3. Ferromagnetic shape memory alloy actuator enabled for nanometric position control using hysteresis compensation [J] . Sadeghzadeh A., Asua E., Feuchtwanger J., Sensors and Actuators, A. Physical . 2012,第Null期

机译：铁磁形状记忆合金致动器可通过磁滞补偿实现纳米位置控制
4. Hysteresis modeling and position control of actuator with magnetic shape memory alloy [C] . Bartosz Minorowicz, Frederik Stefanski, Dariusz Sedziak International Carpathian Control Conference . 2016

机译：磁性形状记忆合金致动器的磁滞建模和位置控制
5. Methods for modeling and control of systems with hysteresis of shape memory alloy actuators [D] . Wang, Yu Feng 2006

机译：形状记忆合金致动器磁滞系统的建模和控制方法
6. Hysteresis Modeling of Magnetic Shape Memory Alloy Actuator Based on Krasnoselskii-Pokrovskii Model [O] . Miaolei Zhou, Shoubin Wang, Wei Gao 2013

机译：基于Krasnoselskii-Pokrovskii模型的磁性形状记忆合金驱动器的磁滞建模
7. Hysteresis Curve Fitting Optimization of Magnetic Controlled Shape Memory Alloy Actuator [O] . Fuquan Tu, Shengmou Hu, Yuhang Zhuang, 2016

机译：磁控形状记忆合金执行器的磁滞曲线拟合优化

Adaptive Control of Positioning Systems With Hysteresis Based on Magnetic Shape Memory Alloys

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