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Retrieval strategy for failed satellite on tether’s optimal balance swing angle 被引量:1

Retrieval strategy for failed satellite on tether’s optimal balance swing angle
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摘要 A retrieval control strategy for failed satellite,which is connected to a servicing spacecraft by a tether,is studied.The Lagrange analytical mechanics based dynamics modeling for the system composed of a servicing spacecraft,a tether and a failed satellite,is presented under the earth center inertia coordinate system,then model simplification is conducted under the assumption that the failed satellite’s mass is far smaller than the servicing spacecraft’s,meanwhile the tether’s length is far smaller than the size of the servicing spacecraft’s orbit.Analysis shows that the retrieval process is intrinsically unstable as the Coriolis force functions is a negative damping.A retrieval strategy based on only the tether’s tension is designed,resulting in the fastest retrieval speed.In the proposed strategy,firstly,the tether’s swing angle amplitude is adjusted to 45?by deploying/retrieving the tether;then the tether swings freely with fixed length until it reaches negative maximum angle–45?;finally,the tether is retrieved by the pre-assigned exponential law.For simplicity,only the coplanar situation,that the tether swings in the plane of the servicing spacecraft’s orbit,is studied.Numerical simulation verifies the effectiveness of the strategy proposed. A retrieval control strategy for failed satellite, which is connected to a servicing spacecraft by a tether, is studied. The Lagrange analytical mechanics based dynamics modeling for the system composed of a servicing spacecraft, a tether and a failed satellite, is presented under the earth center inertia coordinate system, then model simplification is conducted under the assumption that the failed satellite’s mass is far smaller than the servicing spacecraft’s, meanwhile the tether’s length is far smaller than the size of the servicing spacecraft’s orbit. Analysis shows that the retrieval process is intrinsically unstable as the Coriolis force functions is a negative damping. A retrieval strategy based on only the tether’s tension is designed, resulting in the fastest retrieval speed.In the proposed strategy, firstly, the tether’s swing angle amplitude is adjusted to 45° by deploying/retrieving the tether; then the tether swings freely with fixed length until it reaches negative maximum angle-45°; finally, the tether is retrieved by the pre-assigned exponential law. For simplicity, only the coplanar situation, that the tether swings in the plane of the servicing spacecraft’s orbit,is studied. Numerical simulation verifies the effectiveness of the strategy proposed.
出处 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2019年第4期749-759,共11页 系统工程与电子技术(英文版)
基金 supported by the Fundamental Research Funds for the Central Universities(NUAA-NS2016082)
关键词 tethered SPACE tug(TST) RETRIEVAL control STRATEGY FAILED SATELLITE SPACE debris on-orbit service tethered space tug(TST) retrieval control strategy failed satellite space debris on-orbit service
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