Knowledge-based fuzzy imbalanced force compensator design for a single active magnetic bearing suspended rotor system

机译：主动磁悬浮轴承转子系统的基于知识的模糊不平衡力补偿器设计

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A fuzzy imbalanced force estimator and feed-forward controller designed by the knowledge of rotor dynamics for a single active magnetic bearing suspended rotor system was proposed to eliminate the unbalancing vibration of rotor in the paper. The variable parameters used in the fuzzy estimator are displacement and velocity of the rotor and control current of the magnetic bearing. Based on the estimating signal, a feed-forward control system is set to suppress the unbalancing vibration. The simulation and experiment results show that the proposed estimation system could accurately estimate the unbalance force and the feed-forward control system could restrain the unbalancing vibration to improving the rotational accuracy.

机译：为了消除转子的不平衡振动，提出了一种基于单个转子的主动磁悬浮轴承系统的转子动力学知识设计的模糊不平衡力估计器和前馈控制器。模糊估计器中使用的可变参数是转子的位移和速度以及电磁轴承的控制电流。根据估计信号，设置前馈控制系统以抑制不平衡振动。仿真和实验结果表明，所提出的估计系统可以准确地估计不平衡力，而前馈控制系统可以抑制不平衡振动，从而提高了旋转精度。

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《2011 IEEE International Conference on Fuzzy Systems》|2011年|p.867-871|共5页
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Fan Yi Hua; Lee Ying Tsun;
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中图分类 TP273.4;
关键词
fuzzy imbalanced force estimator; single active magnetic bearing;

机译：模糊不平衡力估计器;单主动电磁轴承;

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专利

1. 主动磁悬浮轴承系统实时不平衡力补偿控制 [J] . 高辉, 徐龙祥, 朱益利南京航空航天大学学报（英文版） . 2011,第002期
2. Design of adaptive compensator of force imbalance for a single active magnetic bearings suspended rotor system [J] . Yi-Hua Fan, Kuan-Yu Chen, Duan-Liang Weng, Journal of Applied Physics . 2008,第7pa3期

机译：单个主动磁悬浮转子系统的力不平衡自适应补偿器设计。
3. Static mass imbalance identification and vibration control for rotor of magnetically suspended control moment gyro with active-passive magnetic bearings [J] . Cui Peiling, He Jingxian, Fang Jiancheng Journal of vibration and control: JVC . 2016,第10期

机译：主动-磁悬浮轴承磁悬浮控制力矩陀螺转子静质量失衡识别与振动控制
4. Neuro-fuzzy active control of rotor suspended on active magnetic bearing [J] . Couzon PY, Hagopian JD Journal of vibration and control: JVC . 2007,第4期

机译：悬浮在主动电磁轴承上的转子的神经模糊主动控制
5. Knowledge-based fuzzy imbalanced force compensator design for a single active magnetic bearing suspended rotor system [C] . Fan Yi Hua, Lee Ying Tsun IEEE International Conference on Fuzzy Systems . 2011

机译：基于知识的模糊不平衡力补偿器设计，用于单个有源磁轴承悬挂转子系统
6. Robust stabilization of rotor-active magnetic bearing systems. [D] . Li, Guoxin. 2007

机译：转子主动式磁轴承系统的鲁棒稳定。
7. Fault Diagnosis of Active Magnetic Bearing–Rotor System via Vibration Images [O] . Xunshi Yan, Zhe Sun, Jingjing Zhao, 2019

机译：主动磁轴承－转子系统的振动图像故障诊断
8. Vibration Control of a Flexible Rotor Suspended by Active Electromagnetic Bearings. 4th Report. Design of Digital Control System to Cancel out Unbalances and Simulation of an Unbalance Response. [O] . Yasuyuki Suzuki, Seiichi Michimura, Akiyoshi Tamura 1993

机译：由主动电磁轴承悬挂的柔性转子的振动控制。第四次报告。数字控制系统的设计，取消不平衡和不平衡响应的模拟。
9. Modelladaption und Unwuchtkompensation bei Rotoren in Aktiven Magnetlagern (Model Adaptation and Imbalance Compensation in Rotors with Active Magnetic Bearings) [R] . Blessing, R. 1985

机译：在aktiven magnetlagern中的modelladaption和Unwuchtkompensation bei Rotoren（带有主动磁力轴承的转子中的模型适应和不平衡补偿）

Knowledge-based fuzzy imbalanced force compensator design for a single active magnetic bearing suspended rotor system

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