Landing site topographic mapping and rover localization for Chang'e-4 mission

被引:1
|
作者
Zhaoqin LIU [1 ]
Kaichang DI [1 ]
Jian LI [2 ]
Jianfeng XIE [2 ]
Xiaofeng CUI [2 ]
Luhua XI [2 ]
Wenhui WAN [1 ]
Man PENG [1 ]
Bin LIU [1 ]
Yexin WANG [1 ]
Sheng GOU [1 ]
Zongyu YUE [1 ]
Tianyi YU [2 ]
Lichun LI [2 ]
Jia WANG [2 ]
Chuankai LIU [2 ]
Xin XIN [1 ]
Mengna JIA [1 ]
Zheng BO [1 ]
Jia LIU [1 ]
Runzhi WANG [1 ]
Shengli NIU [1 ]
Kuan ZHANG [2 ]
Yi YOU [2 ]
Bing LIU [2 ]
Jiangang LIU [2 ]
机构
[1] State Key Laboratory of Remote Sensing Science, Aerospace Information Research Institute, Chinese Academy of Sciences
[2] Beijing Aerospace Control Center (BACC)
来源
Science China(Information Sciences) | 2020年 / 04期
基金
中国国家自然科学基金;
关键词
Chang’e-4; Yutu-2; rover; landing site mapping; rover localization; descent images; rover images;
D O I
暂无
中图分类号
V476.3 [月球探测器]; V448.2 [航天器制导与控制];
学科分类号
081105 ; 082503 ;
摘要
This paper presents the techniques and results of landing-site topographic mapping and rover localization using orbital, descent and rover images in the Chang’e-4 mission. High-resolution maps of the landing site are generated from orbital and descent images. Local digital elevation models and digital orthophoto maps with 0.02 m resolution are generated at each waypoint. The location of the lander is determined as(177.588° E, 45.457°S) using festure-matching techniques. The cross-site visual localization method is routinely used to localize the rover at each waypoint to reduce error accumulation from wheel slippage and IMU drift in dead reckoning. After the first five lunar days, the rover travels 186.66 m from the lander, according to the cross-site visual localization. The developed methods and results have been directly utilized to support the mission’s operations. The maps and localization information are also valuable for supporting multiple scientific explorations of the landing site.
引用
收藏
页码:170 / 181
页数:12
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