Study on the implications of inter-satellite electromagnetic forces for relative translational motion

2016 IEEE Chinese Guidance, Navigation and Control Conference (CGNCC) Pub Date : 2016-08-01 DOI:10.1109/CGNCC.2016.7829055
Wei-wei Cai, Pu Zeng, Le-ping Yang, Yanwei Zhu
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Abstract

As the spacecraft relative motion control actuated by inter-satellite electromagnetic forces become a key concern in the space domain, the need to analyze the specific dynamic characteristics is apparent and important for better control performance. Based on the assumption of large separation distance between spacecraft and a circular reference orbit of the formation mass center, the relative translational dynamic model is developed. Then three typical configurations of the magnetic dipoles are given, and the implications of the corresponding electromagnetic forces are analyzed, as well as the dynamic mechanisms behind. Some useful conclusions follow in the end.
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卫星间电磁力对相对平移运动的影响研究
随着星间电磁力驱动的航天器相对运动控制成为空间领域研究的热点,分析其具体动态特性对提高控制性能具有重要意义。基于航天器与编队质心圆形参考轨道较大分离距离的假设,建立了相对平移动力学模型。然后给出了磁偶极子的三种典型构型,并分析了相应电磁力的含义及其背后的动力学机制。最后得出了一些有用的结论。
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2016 IEEE Chinese Guidance, Navigation and Control Conference (CGNCC)
2016 IEEE Chinese Guidance, Navigation and Control Conference (CGNCC)
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