地球静止轨道航天器绕飞持续观测任务轨迹规划与控制
Trajectory planning and control of continuous observation missions for geosynchronous orbit spacecraft fly-around
张海涛 1王伟林 1张雅声 1王浩 2李智1
作者信息
- 1. 航天工程大学,北京 101416
- 2. 酒泉卫星发射中心,甘肃 酒泉 735000
- 折叠
摘要
针对地球静止轨道(geosynchronous orbit,GEO)航天器的高清观测任务,成像卫星在连续小推力作用下接近GEO 航天器,对 GEO 航天器自然绕飞并以有利的光照条件对其持续观测.针对 Clohessy-Wiltshire(CW)方程的偏差问题,通过修正非球形摄动和重力加速度二次长期项偏差对CW方程进行改进,补偿非线性偏差的长期项和主要的摄动项.在轨迹规划问题上,计算绕飞轨迹的初始相位角区间,以保证成像卫星在整个绕飞任务中都能够以良好的观测角观测GEO航天器.基于CW方程和改进的CW方程对成像卫星接近和绕飞GEO航天器全过程进行仿真,基于CW方程的仿真没有达到预期目标;基于改进的CW方程的仿真达到预期目标,全过程所需施加的总速度增量仅为4.67 m/s,工程上具有很强的可行性.
Abstract
For high-definition observation of GEO(geosynchronous orbit)spacecraft,the optical satellite approaches the GEO spacecraft with continuous low-thrust and flies around the GEO spacecraft without thrust.On the deviation of Clohessy-Wiltshire(CW)equations,CW equations are improved by accommodating the non-spherical perturbation,and the quadratic terms of the nonlinearity in the differential gravitational acceleration.The secular growth of the nonlinear deviation and the most perturbation deviation have been accommodated in the ICW(improved CW)equations.On trajectory planning,we calculate the initial phase angle interval of the fly-around trajectory to ensure that the optical satellite can take pictures of the GEO spacecraft with favorable observation angles throughout the entire fly-around mission.Simulations are conducted based on CW equations and ICW equations,respectively.The simulation based on the CW equations fails,but the simulation based on the ICW equations succeeds.The total thrust required is only4.67 m/s,which is highly feasible in engineering.
关键词
成像卫星/轨迹规划/绕飞任务/非线性偏差/摄动偏差/持续观测Key words
optical satellite/trajectory planning/fly-around mission/nonlinear deviation/perturbation deviation/continuous observation引用本文复制引用
基金项目
国家卓越青年基金(2017-JCJQ-ZQ-005)
国家自然科学基金(61304228)
出版年
2024
国家科技期刊平台
NSTL
维普
万方数据