%0 Journal Article %T 月球着陆器过渡轨道的数值仿真<br>Numerical Simulation of the Transition Orbit of Lunar Lander %A 钟振 %A 杨敏< %A br> %A ZHONG Zhen %A YANG Min %J 西南大学学报(自然科学版) %D 2017 %R 10.13718/j.cnki.xdzk.2017.07.026 %X 针对月球背面着陆器过渡轨道的选择问题,选择南极艾德肯盆地SPA作为登陆位置,设计了月球正面远月点100 km高程,背面SPA为近月点10 km高程的椭圆型过渡轨道,利用动力学方法和月球高阶重力场模型GRGM660PRIM,对该轨道进行了仿真分析.结果表明,着陆器的在轨时间接近7 d,其中近月点在SPA中心平坦区域的时间超过3 d.较长的在轨时间有利于后续着陆决策操作的准备,说明该设计的初始轨道根数具有一定的实际意义,可为着陆器的成功登陆提供一定程度的参考.<br>As to the lander's transition orbit on the farside of the moon, this paper proposes an elliptic orbit with an apogee of 100 km on the nearside and a perigee over the South Pole-Aitken SPA basin. Employing the dynamic method and the recent high precision gravity field model GRGM660PRIM, we make a simulation and an analysis of this transition orbit. The results indicate that the lander on such an orbit can keep running for approximately 7 days and, especially, remain over the flat region of the SPA for more than 3 days, which is favorable for landing decision. The initial Kepler orbit elements suggested here may be of great help for the lander's successful landing %K 月球背面 %K 重力场 %K 着陆器 %K 过渡轨道< %K br> %K farside of the moon %K gravity field %K lander %K transition orbit %U http://xbgjxt.swu.edu.cn/jsuns/html/jsuns/2017/7/201707026.htm