Vibration control for the solar panels of spacecraft: Innovation methods and potential approaches

Dongxu Li, Wang Liu
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Abstract

Solar panels on spacecraft are typical kinds of flexible structures. Low-frequency and large-amplitude vibrations usually occur due to the inevitable disturbances of deployment impact, attitude/orbit maneuver, separation/docking impact, and so forth. These vibrations degrade the stability of the spacecraft platform, leading to a reduction in imaging quality and pointing direction accuracy. Vibration control is obligatory during flight missions. Here, we summarize the researches on vibration control of the solar panels. First, typical solar panels used in spacecraft and the specific difficulties in dynamic modeling and control design are introduced. Next, the researches on dynamic modeling methods, decentralized vibration control strategy, and in-orbit vibration controller design technologies are presented sequentially. Finally, a practical example where our method was successfully applied in-orbit is described. In conclusion, the theories, methods, and technologies presented in this review hold significant value for achieving high-precision performance in large spacecraft.
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航天器太阳能电池板的振动控制:创新方法和潜在途径
航天器上的太阳能电池板是典型的柔性结构。由于部署冲击、姿态/轨道机动、分离/对接冲击等不可避免的干扰,通常会产生低频和大振幅振动。这些振动会降低航天器平台的稳定性,导致成像质量和指向精度下降。在执行飞行任务时,必须对振动进行控制。在此,我们总结了有关太阳能电池板振动控制的研究。首先,介绍航天器中使用的典型太阳能电池板以及动态建模和控制设计中的具体难点。然后,依次介绍了动态建模方法、分散振动控制策略和在轨振动控制器设计技术的研究。最后,介绍了我们的方法在轨道上成功应用的实际案例。总之,本综述中介绍的理论、方法和技术对于实现大型航天器的高精度性能具有重要价值。
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