Fuzzy dynamic output feedback control with adaptive rotor imbalance compensation for magnetic bearing systems

Shi-Jing Huang; Lih-Chang Lin

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Fuzzy dynamic output feedback control with adaptive rotor imbalance compensation for magnetic bearing systems

机译：具有自适应转子不平衡补偿的磁悬浮系统模糊动态输出反馈控制。

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This paper presents a dynamic output feedback control with adaptive rotor-imbalance compensation based on an analytical Takagi-Sugeno fuzzy model for complex nonlinear magnetic bearing systems with rotor eccentricity. The rotor mass-imbalance effect is considered with a linear in the parameter approximator. Through the robust analysis for disturbance rejection, the control law can be synthesized in terms of linear matrix inequalities. Based on the suggested fuzzy output feedback design, the controller may be much easier to implement than conventional nonlinear controllers. Simulation validations show that the proposed robust fuzzy control law can suppress the rotor imbalance-induced vibration and has excellent capability for high-speed tracking and levitation control.

机译：本文提出了一种基于自适应Takagi-Sugeno模糊模型的自适应转子不平衡补偿的动态输出反馈控制，用于带有转子偏心的复杂非线性磁轴承系统。在参数逼近器中考虑线性的转子质量不平衡效应。通过对干扰抑制的鲁棒分析，可以根据线性矩阵不等式综合控制律。基于建议的模糊输出反馈设计，该控制器可能比传统的非线性控制器更容易实现。仿真验证表明，所提出的鲁棒模糊控制律能够抑制转子不平衡引起的振动，并具有出色的高速跟踪和悬浮控制能力。

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《IEEE transactions on systems, man, and cybernetics. Part B, Cybernetics》 |2004年第4期|p.1854-1864|共11页
作者
Shi-Jing Huang; Lih-Chang Lin;
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正文语种 eng
中图分类自动化基础理论;
关键词
compensation; feedback; fuzzy control; linear matrix inequalities; magnetic bearings; robust control; rotors; tracking; adaptive rotor-imbalance compensation; analytical Takagi-Sugeno fuzzy model; complex nonlinear magnetic bearing systems; fuzzy dynamic output fee;

机译：补偿;反馈;模糊控制;线性矩阵不等式;磁性轴承;鲁棒控制;转子;跟踪;自适应转子不平衡补偿;解析Takagi-Sugeno模糊模型;复杂的非线性磁性轴承系统;模糊动态输出费用;

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专利

1. STABLE FUZZY CONTROL WITH ADAPTIVE ROTOR IMBALANCE COMPENSATION FOR NONLINEAR MAGNETIC BEARING SYSTEMS [J] . Shi-Jing Huang, Lih-Chang Lin Journal of the Chinese Institute of Engineers. Series A . 2005,第4期

机译：非线性磁轴承系统的自适应转子不平衡补偿的稳定模糊控制
2. Adaptive Fuzzy Control for Nonstrict Feedback Systems With Unmodeled Dynamics and Fuzzy Dead Zone via Output Feedback [J] . Lijie Wang, Hongyi Li, Qi Zhou, Cybernetics, IEEE Transactions on . 2017,第9期

机译：具有输出反馈的无模型动力学和模糊死区的非严格反馈系统的自适应模糊控制
3. A Uniform Control Method for Imbalance Compensation and Automation Balancing in Active Magnetic Bearing-Rotor Systems [J] . Jiang Kejian, Tang Ming Journal of Dynamic Systems, Measurement, and Control . 2012,第2期

机译：主动磁轴承-转子系统不平衡补偿和自动平衡的统一控制方法
4. Fuzzy H/sub /spl infin// output feedback control for rotor magnetic bearing system [C] . Sac Kyu Nam, Ho Shik Kang, Oh Seop Song Fuzzy Systems, 2002. FUZZ-IEEE'02. Proceedings of the 2002 IEEE International Conference on . 2002

机译：转子电磁轴承系统的模糊H / sub / spl infin //输出反馈控制
5. A wavelet based approach to the transient control of rotor/active magnetic bearing systems [D] . Cade, Iain Stuart 2006

机译：基于小波的转子/主动电磁轴承系统瞬态控制方法
6. Performance for rotor system of hybrid electromagnetic bearing and elastic foil gas bearing with dynamic characteristics analysis under deep learning [O] . Xiangxi Du, Yanhua Sun 2021

机译：混合电磁轴承转子系统的性能和深度学习动态特性分析的弹性箔气体轴承
7. Adaptive Autocentering Control for an.Active Magnetic Bearing Supporting a Rotor with Unknown Mass Imbalance [O] . Kai-yew Lum, Dennis S. Bernstein 2014

机译：用于支撑具有未知质量不平衡的转子的主动磁轴承的自适应自动控制
8. Nonlinear Control of a Rigid Rotor Magnetic Bearing System: Modeling andSimulation with Full State Feedback [R] . Smith, R. D., Weldon, W. F. 1995

机译：刚性转子磁轴承系统的非线性控制：全状态反馈的建模与仿真

Fuzzy dynamic output feedback control with adaptive rotor imbalance compensation for magnetic bearing systems

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