Configuration maintaining control of three-body ring tethered system based on thrust compensation

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Configuration maintaining control of three-body ring tethered system based on thrust compensation

Huang, Panfeng / Liu, Binbin / Zhang, Fan

Abstract Space multi-tethered systems have shown broad prospects in remote observation missions. This paper mainly focuses on the dynamics and configuration maintaining control of space spinning three-body ring tethered system for such mission. Firstly, we establish the spinning dynamic model of the three-body ring tethered system considering the elasticity of the tether using Newton–Euler method, and then validate the suitability of this model by numerical simulation. Subsequently, LP (Likins-Pringle) initial equilibrium conditions for the tethered system are derived based on rigid body's equilibrium theory. Simulation results show that tether slack, snapping and interaction between the tethers exist in the three-body ring system, and its' configuration can not be maintained without control. Finally, a control strategy based on thrust compensation, namely thrust to simulate tether compression under LP initial equilibrium conditions is designed to solve the configuration maintaining control problem. Control effects are verified by numerical simulation compared with uncontrolled situation. Simulation results show that the configuration of the three-body ring tethered system could maintain under this active control strategy.

Highlights • The spinning dynamic model of the three-body ring tethered system is established. • Likins-Pringle initial equilibrium conditions for the tethered system are derived. • The tether slack, snapping and interaction between the tethers are analyzed. • A configuration maintaining controller based on thrust compensation is designed.