双脉冲转移探测小行星的最优轨道设计

IF 0.2

International Journal of Space Science and Engineering Pub Date : 2019-07-30 DOI:10.1504/IJSPACESE.2019.10022791

Yu Shi, Hao Peng, Yue Wang, Shijie Xu

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引用次数: 0

摘要

小行星全球探测的轨迹是为了对不同区域进行综合调查而设计的。待访问的区域被认为是分散在小行星表面的目标点，所有目标点都应该由脉冲推力推进的航天器访问。从转移轨道优化和探测序列优化两方面对航天器轨道进行了节油优化。首先，通过求解一个非线性规划问题，优化任意两个目标点之间通过两个脉冲的转移轨道以节省燃料。利用点质量引力场中朗伯问题的解作为优化的初始猜测。然后，在确定所有最优转移轨道后，将探索序列处理为旅行推销员问题(TSP)。比较了求解该问题的分支定界法和贪心算法。最后，小行星433爱神的全球探索的轨迹是为了演示目的而设计的。

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Optimal trajectory design for global exploration of an asteroid via bi-impulsive transfers

The trajectory for a global exploration of an asteroid is designed to make a comprehensive investigation of different areas. The areas to be visited are considered as target points scattered on the asteroid's surface and all the target points are supposed to be visited by the spacecraft propelled by impulsive thrusts. The trajectory of the spacecraft is optimised for fuel saving in two parts: the transfer orbit optimisation and the exploration sequence optimisation. Firstly, transfer orbits between any two target points via two impulses are optimised for fuel saving by solving a nonlinear programming problem. The solution of the Lambert problem in the gravitational field of a point mass is used as initial guesses in the optimisation. Then, with all the optimal transfer orbits determined, the exploration sequence is processed as a travelling salesman problem (TSP). Branch and bound method and greedy algorithm for solving this problem are compared. Finally, the trajectory for a global exploration of the asteroid 433 Eros is designed for a demonstration purpose.

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来源期刊

International Journal of Space Science and Engineering ENGINEERING, AEROSPACE-

CiteScore

1.00

自引率

0.00%

发文量