Adaptive control for autonomous rendezvous of spacecraft on elliptical orbit 被引量：4

Adaptive control for autonomous rendezvous of spacecraft on elliptical orbit

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摘要 A strategy for spacecraft autonomous rendezvous on an elliptical orbit in situation of no orbit information is developed. Lawden equation is used to describe relative motion of two spacecraft. Then an adaptive gain factor is introduced, and an adaptive control law for auton- omous rendezvous on the elliptical orbit is designed using Lyapunov approach. The relative motion is proved to be ultimately bounded under this control law, and the final relative position error can achieve the expected magnitude. Simulation results indicate that the adaptive control law can realize autonomous rendezvous on the elliptical orbit with relative state information only. A strategy for spacecraft autonomous rendezvous on an elliptical orbit in situation of no orbit information is developed. Lawden equation is used to describe relative motion of two spacecraft. Then an adaptive gain factor is introduced, and an adaptive control law for auton- omous rendezvous on the elliptical orbit is designed using Lyapunov approach. The relative motion is proved to be ultimately bounded under this control law, and the final relative position error can achieve the expected magnitude. Simulation results indicate that the adaptive control law can realize autonomous rendezvous on the elliptical orbit with relative state information only.

作者 Shan Lu Shijie Xu School of Astronautics, Beihang University,100191 Beijing, China

出处《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2009年第4期539-545,共7页 力学学报（英文版）

基金 supported by the National Natural Science Foundation of China (10702003)

关键词 Autonomous rendezvous Elliptical orbit Lyapunov approach Adaptive control Gain factor Autonomous rendezvous Elliptical orbit Lyapunov approach Adaptive control Gain factor

分类号 V448.2 [航空宇航科学与技术—飞行器设计]

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