摘要
为解决长征(LM)运载火箭发射火星探测器转移轨道时,因低温入轨级最长允许滑行时间及测控限制,有效发射日期窗口亟需拓展的问题,采用主矢量理论结合序列二次规划算法(SQP),研究了探测器深空机动(DSM)对优化运载火箭发射火星转移轨道的作用。在发射直接转移火星探测轨道算法基础上,重点研究了包含引力影响球(SOI)内近地及近火飞行段后,采用主矢量获取深空机动最优猜测初值的分析算法,通过直接使用探测器近火点目标轨道参数优化运载火箭发射轨道,研究对比不同优化目标及设计约束下深空机动的分析结果,证实深空机动对降低转移轨道总发射能量需求、拓展发射日期窗口的高效性;该算法已应用于工程设计。
In order to resolve the problems of extending the effective launch periods, resulting from the Earth-to-Mars trajectory design of a Long March(LM) launch vehicle constrained by the longest coasting phase and tracking & telecommunication, the primer vector theory and sequence quadratic program(SQP) are used to study the influence of the deep space maneuver(DSM) of a Mars probe on the optimization of the launch vehicle’s Earth-to-Mars trajectory. A brief analysis on the direct Earth-to-Mars trajectory design is given firstly, then details of the algorithm on how to get the optimal initial guess values on DSM through the primer vector theory are studied, including the flight phases inside each gravitational sphere of influence(SOI). Furthermore, with SQP, the launch trajectories via DSM are optimized using the final orbital parameters of the Mars probe directly. The research based on different optimal aims including the design constraints shows that DSM is highly effective to lower the overall launch energy of the Earth-to-Mars transfer trajectory, and to extend the launch periods under the restriction of the longest coasting phase during the parking orbit of the LM launch vehicle. The algorithm has been used in engineering.
作者
耿光有
王珏
张志国
王建明
田继超
GENG Guang-you;WANG Jue;ZHANG Zhi-guo;WANG Jian-ming;TIAN Ji-chao(School of Astronautics, Beihang University, Beijing 100191 , China;Beijing Institute of Astronautical Systems Engineering, Beijing 100076, China;China Academy of Launch Vehicle Technology, Beijing 100076 , China)
出处
《宇航学报》
EI
CAS
CSCD
北大核心
2019年第5期518-526,共9页
Journal of Astronautics
基金
国家部委预研课题(1591)
