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Proceedings Paper

Research on optimal path planning algorithm of task-oriented optical remote sensing satellites
Author(s): Yunhe Liu; Shengli Xu; Fengjing Liu; Jingpeng Yuan
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Paper Abstract

GEO task-oriented optical remote sensing satellite, is very suitable for long-term continuous monitoring and quick access to imaging. With the development of high resolution optical payload technology and satellite attitude control technology, GEO optical remote sensing satellites will become an important developing trend for aerospace remote sensing satellite in the near future. In the paper, we focused on GEO optical remote sensing satellite plane array stare imaging characteristics and real-time leading mission of earth observation mode, targeted on satisfying needs of the user with the minimum cost of maneuver, and put forward the optimal path planning algorithm centered on transformation from geographic coordinate space to Field of plane, and finally reduced the burden of the control system. In this algorithm, bounded irregular closed area on the ground would be transformed based on coordinate transformation relations in to the reference plane for field of the satellite payload, and then using the branch and bound method to search for feasible solutions, cutting off the non-feasible solution in the solution space based on pruning strategy; and finally trimming some suboptimal feasible solutions based on the optimization index until a feasible solution for the global optimum. Simulation and visualization presentation software testing results verified the feasibility and effectiveness of the strategy.

Paper Details

Date Published: 6 August 2015
PDF: 9 pages
Proc. SPIE 9669, Remote Sensing of the Environment: 19th National Symposium on Remote Sensing of China, 96690I (6 August 2015); doi: 10.1117/12.2204736
Show Author Affiliations
Yunhe Liu, China Academy of Space Technology (China)
Shengli Xu, China Academy of Space Technology (China)
Fengjing Liu, China Academy of Space Technology (China)
Jingpeng Yuan, China Academy of Space Technology (China)

Published in SPIE Proceedings Vol. 9669:
Remote Sensing of the Environment: 19th National Symposium on Remote Sensing of China
Qingxi Tong; Boqin Zhu, Editor(s)

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