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Dynamics of tether-tugging reorbiting with net capture 被引量:8
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作者 LIU Hai Tao zhang qing bin +2 位作者 YANG Le Ping ZHU Yan Wei zhang Yuan Wen 《Science China(Technological Sciences)》 SCIE EI CAS 2014年第12期2407-2417,共11页
To control the growth of space debris in the geostationary earth orbit (GEO), a novel solution of net capture and tether-tugging reorbiting is proposed. After capture, the tug (i.e., active spacecraft), tether, ne... To control the growth of space debris in the geostationary earth orbit (GEO), a novel solution of net capture and tether-tugging reorbiting is proposed. After capture, the tug (i.e., active spacecraft), tether, net, and target (i.e., GEO debris) constitute a rig- id-flexible coupled tethered combination system (TCS), and subsequently the system is transported to the graveyard orbit by a thruster equipped on the tug. This paper attempts to study the dynamics of tether-tugging leorbiting after net capture. The net is equivalent to four flexible bridles, and the tug and target are viewed as rigid bodies. A sophisticated mathematical model is developed, taking into account the system orbital motion, relative motion of two spacecraft and spacecraft attitude motion. Given the complexity of the model, the numerical method is adopted to study the system dynamics characteristics. Particular attention is given to the investigation of the possible risks such as tether slack, spacecraft collision, tether rupture, tether-tug intertwist and destabilizing of the rug's attitude. The influence of the initial conditions and the magnitudes of the thrust are studied. 展开更多
关键词 active debris removal net capture tether-tugging reorbiting THRUSTER risk analysis
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