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Integrated Power and Attitude Control Design of Satellites Based on a Fuzzy Adaptive Disturbance Observer Using Variable-Speed Control Moment Gyros

机译：基于模糊自适应扰动观察器的卫星综合电力和姿态控制设计，可变速度控制力矩陀螺

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To satisfy the requirements for small satellites that seek agile slewing with peak power, this paper investigates integrated power and attitude control using variable-speed control moment gyros (VSCMGs) that consider the mass and inertia of gimbals and wheels. The paper also details the process for developing the controller by considering various environments in which the controller may be implemented. A fuzzy adaptive disturbance observer (FADO) is proposed to estimate and compensate for the effects of equivalent disturbances. The algorithms can simultaneously track attitude and power. The simulation results illustrate the effectiveness of the control approach, which exhibits an improvement of 80 percent compared with alternate approaches that do not employ a FADO.

机译：为了满足寻求峰值功率的敏捷回转的小卫星的要求，本文研究了使用考虑万向节和车轮质量和惯性的可变速度控制力矩陀螺壁（VSCMG）的集成功率和姿态控制。本文还通过考虑可以实现控制器的各种环境，详细介绍了开发控制器的过程。提出了一种模糊自适应干扰观察者（FADO）来估计和补偿等效干扰的影响。该算法可以同时跟踪姿态和功率。仿真结果说明了对照方法的有效性，与不采用FADO的替代方法相比，其表现出80％的提高。

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Zhongyi Chu; Jing Cui;
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年度 2016
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正文语种 eng
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1. Integrated Power and Attitude Control Design of Satellites Based on a Fuzzy Adaptive Disturbance Observer Using Variable-Speed Control Moment Gyros [J] . Chu Zhongyi, Cui Jing International journal of aerospace engineering . 2016,第pta1期

机译：基于变速控制力矩陀螺的模糊自适应扰动观测器的卫星综合力姿控制设计
2. Adaptive fault tolerant attitude control based on a disturbance observer for satellites with multiple disturbances [J] . Cao Songyin, Zhao Yunfeng, Qiao Jianzhong Transactions of the Institute of Measurement and Control . 2016,第6期

机译：基于干扰观测器的多干扰卫星自适应容错姿态控制
3. Adaptive fault tolerant attitude control of flexible satellites based on Takagi-Sugeno fuzzy disturbance modeling [J] . Transactions of the Institute of Measurement and Control . 2020,第9期

机译：基于Takagi-sugeno模糊扰动建模的柔性卫星自适应容错姿态控制
4. Discrete Steering Law of Variable-speed Control Moment Gyros in Integrated Power/Attitude Control System [C] . International space conference of Pacific-basin societies . 2008

机译：集成功率/姿态控制系统中可变速度控制力矩陀螺仪的离散转向规律
5. Nonlinear observer/controller designs for spacecraft attitude control systems with uncalibrated gyros. [D] . Thienel, Julie K. 2004

机译：具有未校准陀螺仪的航天器姿态控制系统的非线性观察器/控制器设计。
6. Power Quality Control and Design of Power Converter for Variable-Speed Wind Energy Conversion System with Permanent-Magnet Synchronous Generator [O] . Yüksel Oğuz, İrfan Güney, Hüseyin Çalık 2013

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7. Adaptive Fuzzy Dynamic Surface Control for Multi-Machine Power System Based on Composite Learning Method and Disturbance Observer [O] . Guoqiang Zhu, Linlin Nie, Miaolei Zhou, 2020

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8. Integrated Orbit, Attitude, and Structural Control Systems Design for Space Solar Power Satellites [R] . Wie, Bong, Roithmayr, Carlos M. 2001

机译：太空太阳能卫星综合轨道，姿态和结构控制系统设计

Integrated Power and Attitude Control Design of Satellites Based on a Fuzzy Adaptive Disturbance Observer Using Variable-Speed Control Moment Gyros

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