电推进火星捕获能量最优平面轨迹间接法优化

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中文摘要：电推进行星捕获由于推力小,行星捕获时间将显著增长,具有与化学推进行星捕获完全不同的特性,极大地增加了轨道优化的难度.本文围绕小推力行星捕获段控制问题,以火星探测捕获轨迹优化问题为例,基于双曲轨道参数开展不同性能指标下行星捕获开关机及控制策略研究,使用间接法求解能量最优平面轨迹优化问题得到最优控制策略,并与沿速度方向反向的控制策略进行了比较.结果表明:所提方法实现了对小推力火星捕获的优化设计,捕获后轨道相较于目标轨道的误差较小,轨道安全性能够保证.

外文标题：Indirect Method of Energy-optimized Plane Trajectory Optimization for Electric Propulsion of Mars Orbit Insertion

外文摘要：Because of the low thrust,the time of planetary orbit insertion by electric propulsion has significantly increased.Electric propulsion has completely different characteristics from chemical propulsion,and greatly increases the difficulty in trajectory optimization.This paper focuses on the control problem of the low thrust trajectory of planetary orbit insertion phase,and takes the trajectory optimization problem of Mars orbit insertion as an example.Based on the hyperbolic orbit parameters,research is conducted on the switch and control strategies of planetary orbit insertion under different performance indicators.An indirect method is used to solve the energy-optimized plane trajectory optimization problem and obtain the optimal control strategy.The optimal control strategy is compared with the control strategy in the opposite direction along the velocity direction.The results indicate that the proposed method has achieved optimized design for low thrust Mars orbit insertion.The error in the captured orbit is smaller than that of the target orbit,and the orbital safety can be guaranteed.

外文关键词：

electric propulsionmars orbit insertionswitch and control strategyenergy-optimized plane trajectory optimizationindirect method

作者：

李海洋、段晓闻、赵英杰、刘彤杰、陆希

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作者单位：

上海卫星工程研究所,上海 201109

上海市深空探测技术重点实验室,上海 201109

深空探测实验室,安徽合肥 230026

上海航天技术研究院,上海 201109

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关键词：

电推进火星捕获开关机及控制策略能量最优平面轨迹优化间接法

基金：

国家自然科学基金国家自然科学基金深空探测实验室前沿科研计划上海航天青年基金上海市青年科技英才扬帆计划上海市科技计划

项目编号：

12102265U21B2050GC04FY1003ZC3ZT-2325KJW-JT-QNKYJJ-2022-321YF144610021XD1423700

出版年：

2024

DOI：

10.19328/j.cnki.2096-8655.2024.05.012

上海航天(中英文)

上海航天技术研究院

上海航天(中英文)

CSTPCD

影响因子：0.166

ISSN：2096-8655

年,卷(期)：2024.41(5)

参考文献量17