Distributed fixed-time control for six-degree-of-freedom spacecraft formation with event-triggered observer

J. Zhang, H. Xia, Z. Li
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Abstract

The paper addresses the six-degree-of-freedom coupled control problem for spacecraft formation flying subject to actuator saturation and input quantisation whilst considering limited communication resources. Firstly, a novel event-triggered distributed observer without continuous communications is presented to recover the information of the virtual leader. Remarkably, by embedding a hyperbolic tangent function-based nonlinear term into the triggering condition, the event-based observer realises a more reasonable trigger threshold. Subsequently, an adding-a-power-integrator-based fixed-time control algorithm is proposed for the follower spacecraft. Further, the control scheme ingeniously compensates for the actuator saturation and the input quantisation problems without embedding auxiliary systems. Finally, numerical simulations are carried out to highlight the advantages of the theoretical results.
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具有事件触发观测器的六自由度航天器编队分布式定时控制
在通信资源有限的情况下,研究了受执行器饱和和输入量化影响的航天器编队飞行六自由度耦合控制问题。首先,提出了一种新的无连续通信的事件触发分布式观测器来恢复虚拟领导者的信息;值得注意的是,通过将基于双曲正切函数的非线性项嵌入到触发条件中,基于事件的观测器实现了更合理的触发阈值。随后,提出了一种基于功率积分器的随动航天器定时控制算法。此外,该控制方案巧妙地补偿了执行器饱和和输入量化问题,而不嵌入辅助系统。最后进行了数值模拟,以突出理论结果的优越性。
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