| 空间站基于动量管理的集成能量与姿态控制系统 |
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| 引用本文: | 周黎妮,李海阳,唐国金.空间站基于动量管理的集成能量与姿态控制系统[J].宇航学报,2009,30(6). |
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| 作者姓名: | 周黎妮 李海阳 唐国金 |
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| 作者单位: | 国防科技大学航天与材料工程学院,长沙,410073 |
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| 摘 要: | 研究了使用飞轮和变速控制力矩陀螺的空间站基于动量管理的集成能量与姿态控制系统(Integrated Power and Attitude Control System IPACS ).设计了使用飞轮和变速控制力矩陀螺的空间站基于动量管理的IPACS框架,通过仿真验证了基于动最管理的IPACS的有效性,以及相对于单独的IPACS的优越性,同时变速控制力矩陀螺因同时具备飞轮和框架力矩陀螺的特点更适用于卒间站长期在轨的姿态控制和能量存储要求.
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| 关 键 词: | 飞轮 变速控制力矩陀螺 动量管理 集成能量与姿态控制系统 |
Momentum-Management-Based Integrated Power and Attitude Control System for Space Station |
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| ZHOU Li-ni,LI Hai-yang,TANG Guo-jin.Momentum-Management-Based Integrated Power and Attitude Control System for Space Station[J].Journal of Astronautics,2009,30(6). |
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| Authors: | ZHOU Li-ni LI Hai-yang TANG Guo-jin |
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| Abstract: | An momentum-managemen-based IPACS( Integrated Power and Attitude Control System) for space station with fly-wheels and Varialbe Speed Control Moment Gyrpscope (VSCMG) is proposed in this paper. The control frame for the momentum-managemen-based IPACS is designed. The simulations prove the effectiveness of the momentum-managemen-based IPACS with fly-wheels and VSCMG and that the momentum-managemen-based IPACS is superior to IPACS. Besides VSCMG is proved to be, more,suitable for long time in-orbit space station than flywheels because VSCMG characters as flywheels and CMG. |
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| Keywords: | Flywheel VSCMG (Variable Speed Control Moment Gyroscope) Momentum management IPACS (Integrated Power and Attitude Control System) |
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