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Jianguo Yan Zhen Zhong Fei Li James M. Dohm Jinsong Ping Jianfeng Cao Xie Li 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2013
We analyzed the 150 × 150 lunar gravity field models, LP150Q, GLGM-3 and SGM150, using the power spectrum on the lunar nearside and farside, the lunar global and localized gravity/topography admittance and correlation, and Chang’E-2 precision orbit determination to investigate which model is a more effective tool to estimate geophysical parameters and determine the lunar satellite precision orbit. Results indicate that all gravity field models can be used to estimate the lunar geophysical parameters of the nearside of the Moon. However, SGM150 is better in such computation of the farside. Additionally, SGM150 is shown to be the most useful model for determining the lunar satellite orbit. 相似文献
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H. Noda K. Heki H. Hanada 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008
The measurement of the rotation of the Moon is one of the key techniques to get the information of the internal structure. For this purpose, we proposed a small telescope experiment on the surface of the Moon in which motion of stars are utilized for the estimation of the rotation parameter. This paper describes results of simulation of observation, in which star trajectories observed are decomposed to librations, polar motion, and the precession and the amplitude and phase of each component are estimated. The standard deviation of the parameter estimation becomes nearly 1 ms of arc, which will be better than the Lunar Laser Ranging observation. From the viewpoints of accuracy of observation, thermal condition, and electric power generation, the instrument should be placed where the much sunshine is achieved on the lunar polar region. 相似文献
106.
应用进化策略和微分修正法建立了一套多约束、多目标条件下的月球软着陆轨道设计方法. 根据中国发射场和火箭运载的实际情况, 给出了软着陆轨道需要满足的过程约束及终端条件, 提出了利用进化策略进行轨道初步设计,通过微分修正法对初步设计结果进行修正的软着陆轨道设计思路, 并采用STK进行了仿真和结果验算. 分析表明, 基于进化策略的初步设计能够为微分修正提供良好的初值, 保证了其收敛性. STK仿真结果验证了设计思路的有效性及结果的正确性. 本文提出的方法能够为月球软着陆轨道设计提供参考. 相似文献
107.
月球卫星的自主轨道确定 总被引:7,自引:1,他引:7
分别利用紫外三轴姿态敏感器测出的月心方向和测距仪测出的月心距作为观测量,采用推广卡尔曼滤波方法实时确定出月球卫星环月期间的轨道,考虑到月球卫星在环月期间太阳对月球光照条件的限制,提出分段虑波策略,并给出了仿真分析. 相似文献
108.
A conceptual configuration of the lunar base bioregenerative life support system including soil-like substrate for growing plants 总被引:1,自引:0,他引:1
H. Liu C.Y. Yu N.S. Manukovsky V.S. Kovalev Yu L. Gurevich J. Wang 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008
The paper presents a conceptual configuration of the lunar base bioregenerative life support system (LBLSS), including soil-like substrate (SLS) for growing plants. SLS makes it possible to combine the processes of plant growth and the utilization of plant waste. Plants are to be grown on SLS on the basis of 20 kg of dry SLS mass or 100 kg of wet SLS mass per square meter. The substrate is to be delivered to the base ready-made as part of the plant growth subsystem. Food for the crew was provided by prestored stock 24% and by plant growing system 76%. Total dry weight of the food is 631 g per day (2800 kcal/day) for one crew member (CM). The list of candidate plants to be grown under lunar BLSS conditions included 14 species: wheat, rice, soybean, peanuts, sweet pepper, carrots, tomatoes, coriander, cole, lettuce, radish, squash, onion and garlic. From the prestored stock the crew consumed canned fish, iodinated salt, sugar, beef sauce and seafood sauce. Our calculations show that to provide one CM with plant food requires the area of 47.5 m2. The balance of substance is achieved by the removal dehydrated urine 59 g, feces 31 g, food waste 50 g, SLS 134 g, and also waters 86 g from system and introduction food 236 g, liquid potassium soap 4 g and mineral salts 120 g into system daily. To reduce system setup time the first plants could be sowed and germinated to a certain age on the Earth. 相似文献
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T. Ma J. Chang N. Zhang M.S. Cai Y.Z. Gong H.S. Tang R.J. Zhang N.S. Wang M. Yu J.P. Mao S.B. Su Z. Fang R. Xu Y.M. Hu Q. Gu Y.L. Zhou A.A. Xu L.G. Liu 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008
Gamma-ray spectrometer (GRS) is included in the payload of Chinese first lunar mission Chang’E-1 that will be launched in 2007. Specific objectives of the GRS are to map abundance of O, Si, Fe, Ti, U, Th, K, and perhaps, Mg, Al, and Ca to depths of about 20 cm. There are remarkable advantages for GRS application to remote sensing elemental materials over the entire lunar surface: large effective area and good ability for background rejection. We will describe the design of GRS and present its performance in this paper. Moreover, the GRS calibration will also be introduced. 相似文献