|
|
- 2017
月表空间环境因子动态建模驱动的探测区选取
|
Abstract:
针对在复杂的月表环境下及时高效地选择合适的探测区域这一问题,考察已有的月球探测研究资料,分析了可能影响到科学探测的月球空间环境因子,在此基础上开发了一个可对环境因子动态建模并应用模型自动选取探测区的GIS系统。基于该系统,构建了一个针对嫦娥三号着陆区附近探测区域选取的评价模型,并将其成功应用于嫦娥三号巡视器科学探测目标的选取工作
| [1] | Xu Juan. Lunar Detector Landing Area Selection Technology based on Single Image[D]. Zhengzhou:Information Engineering University, 2012(徐鹃,基于单张影像的月面探测器着陆区选取技术[D].郑州:信息工程大学,2012) |
| [2] | Ouyang Ziyuan. Scientific Objectives of Chinese Lunar Exploration Project and Development Strategy[J]. <em>Advance in Earth Sciences</em>,2004,19(3):351-358(欧阳自远.我国月球探测的总体科学目标与发展战略[J],地球科学进展, 2004,19(3):351-358) |
| [3] | Cozman F, Krotkov E. Automatic Mountain Detection and Pose Estimation for Teleoperation of Lunar Rovers[C]. IEEE International Conference on Robotics and Automation, Albuquerque, NM, 1997 |
| [4] | Stubbs T J, Vondrak R R, Farrell W M. Impact of Dust on Lunar Exploration[EB/OL]. http://hefd.jsc.nasa.gov/files/StubbsImpactOnExploration,2007 |
| [5] | Chen Junyong,Zhang Chuanyin,Dang Yaming. Lunar Spatial Exploration, Surveying and Mapping[J]. <em>Acta Geodaetica et Cartographica Sinica</em>,2005,34(3):189-195(陈俊勇,章传银,党亚民.月球航天探测和月球测绘[J].测绘学报,2005,34(3):189-195) |
| [6] | Song Min, Yuan Yunbin. Autonomous Integrated Navigation for Lunar Soft Landing[J]. <em>Geomatics and Information Science of Wuhan University</em>, 2010,35(9):1013-1016(宋敏, 袁运斌. 月球软着陆自主组合导航研究[J]. 武汉大学学报·信息科学版), 2010,35(9):1013-1016) |
| [7] | Wei Shiyan, Shen Zhenrong, Zhang Shuo, et al. Moon Rover Image Super-resolution Reconstruction Algorithm[J]. <em>Geomatics and Information Science of Wuhan University</em>,2013, 38(4):436-439(魏士俨, 申振荣, 张烁, 等. 月球车图像超分辨率重建算法[J]. 武汉大学学报·信息科学版, 2013(4):436-439) |
| [8] | Ma Jinju. Selecting Discipline and Reconstructing method of Lunar Landing Zone Based on Lunar Exploration Data[D]. Tianjin:Tianjin University, 2012(马金驹. 基于月球探测数据的着陆区选择规律及重构方法研究[D]. 天津:天津大学, 2012 |
| [9] | Arvidson R, Adams D, Bonfiglio G, et al. Mars Exploration Program 2007 Phoenix Landing Site Selection and Characteristics[J]. <em>Journal of Geophysical Research:Planets (1991-2012)</em>, 2008, 113(E3):1-14 |
| [10] | Ai-Chang M, Bresina J, Charest L, et al. MAPGEN:Mixed-Initiative Planning and Scheduling for the Mars Exploration Rover Mission[J]. <em>IEEE Intelligent Systems,2004(4):</em> 1094-7167 |
| [11] | Zheng Wei, Xu Houze, Zhang Min, et al. Progress in International Lunar Exploration Program[J]. <em>Progress in Geophysics</em>,2012,27(6):2296-2307(郑伟,许厚泽,钟敏,等,月球探测计划研究进展[J].地球物理学进展,2012,27(6):2296-2307) |
| [12] | Sasaki S, Kubota T, Okada T, et al. Scientific Exploration of Lunar Surface Using a Rover in Japanese Future Lunar Mission[J]. <em>Advances in Space Research</em>, 2002, 30(8):1921-1926 |
| [13] | Okada T, Sasaki S, Sugihara T, et al. Lander and Rover Exploration on the Lunar Surface:A Study for SELENE-B Mission[J]. <em>Advances in Space Research</em>, 2006, 37(1):88-92 |
| [14] | Li C L, Liu J J, Ren X, et al. The Global Image of the Moon by the Chang'E-1:Data Processing and Lunar Cartography[J]. <em>Sci China Earth Sci</em>, 2010, DOI:10.1007/s11430-010-0053-8 |
| [15] | Liu Jingnan,Wei Erhu,Huang Jingsong, et al. Applications of Selenodesy to Lunar Detection[J]. <em>Geomatics and Informat ion Science of Wuhan University</em>, 2005, 30(2):95-100(刘经南, 魏二虎, 黄劲松, 等. 月球测绘在月球探测中的应用[J]. 武汉大学学报\5信息科学版, 2005, 30(2):95-100) |
| [16] | Luo Jiqiang, Yao Lianxing. An Idea for Lunar Surface Landing Point Selection and Resource Exploration[J]. <em>Infrared and Laser Engineering</em>,2006,35:459-463(罗继强,姚连兴.月球表面着陆点选取及资源勘探的设想[J], 红外与激光工程,2006,35:459-463) |
