Asymptotic theory for thrusting, spinning-up spacecraft maneuvers

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• 作者：Mohammad A. Ayoubi ; James M. Longuski
• 关键词：Asymptotic theory ; Thrusting ; Spinning-up spacecraft ; Rigid body motion
• 刊名：Acta Astronautica
• 出版年：2009
• 出版时间：April-May 2009
• 年：2009
• 卷：64
• 期：7-8
• 页码：810-831
• 全文大小：739 K

文摘

We consider the problem of a spacecraft subjected to constant body-fixed forces and moments about all three axes during a spinning-up, thrusting maneuver. In applications, undesired forces and moments can arise due to thruster imbalances and misalignments and to center-of-mass offset. In previous works, approximate analytical solutions have been found for the attitude motion, and for the change in inertial velocity and inertial position. In this paper we find asymptotic and limiting-case expressions which we derive from the analytic solutions, in order to obtain simplified, practical formulas that lend insight into the motion. Specifically, we investigate how the motion evolves (1) as time grows without bound and (2) for geometric cases of the sphere, the thin rod, and the thin plate. Closed-forms or upper-bound limits are provided for angular velocities, Eulerian angles, angular momentum pointing error, transverse and axial velocities, and transverse and axial displacements. Summaries for the asymptotic limits (for zero initial conditions) are provided in tabular form. Results are verified by numerical simulations.