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Abstract
随着空间望远镜口径的增大,在轨组装望远镜将成为一种发展趋势。现有的热控技术体系尚不能完全满足未来在轨组装望远镜的热控需求。本文结合在轨组装望远镜体积大、模块间存在相互影响、多以日地 L2 点为运行轨道的特点,对两种适用于在轨组装望远镜的热控技术,即大型展开式遮阳罩、基于热总线的模块化柔性热控体系进行了介绍。并对其关键技术进行了分析。在现有基础上构建出面向在轨组装的基于热总线的模块化柔性热控体系模型。
Type
Publication
In The 14th Space Thermal Physics Conference
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Yan XIONG(熊琰)
Ph.D. student from the University of Chinese Academy of Sciences
My research interests include intelligent control of gyroscopes using model-based reinforcement learning, intelligent thermal control based on deep reinforcement learning for space load, and engineering applications of AI, such as robotic systems, spacecraft strategic planning, etc.