|
|||||
|
|
Relative position determination of a lunar rover using high-accuracy multi-frequency same-beam VLBI |
|
| Authors: | LIU QingHui CHEN Ming XIONG WeiMing QIAN ZhiHan LI JinLing HAO WangHong WANG GuangLi ZHENG WeiMin GUAN Di ZHU RenJie WANG WeiHua ZHANG XiuZhong JIANG DongRong SHU FengChun PING JinSong & HONG XiaoYu Shanghai Astronomical Observatory Chinese Academy of Sciences Shanghai China Center for Space Science Applied Research Beijing Lunar Explorer Engineering General Department Beijing ... |
| Affiliation: | LIU QingHui1,CHEN Ming1,XIONG WeiMing2,QIAN ZhiHan1,LI JinLing1,HAO WangHong1,4,WANG GuangLi1,ZHENG WeiMin1,GUAN Di3,ZHU RenJie1,WANG WeiHua1,ZHANG XiuZhong1,JIANG DongRong1,SHU FengChun1,PING JinSong1 & HONG XiaoYu11 Shanghai Astronomical Observatory,Chinese Academy of Sciences,Shanghai 200030,China,2 Center for Space Science , Applied Research,Beijing 100190,3 Lunar Explorer Engineering General Department,Beijing 10001... |
| Abstract: | Multi-frequency same-beam VLBI means that two explorers with a small separation angle are simultaneously observed with the main beam of receiving antennas. In the same-beam VLBI, the differential phase delay between two explorers and two receiving telescopes can be obtained with a small error of several picoseconds. The differential phase delay, as the observable of the same-beam VLBI, gives the separation angular information of the two explorers in the celestial sphere. The two-dimensional relative positio... |
| Keywords: | same-beam VLBI differential phase delay relative position determination lunar rover |
| 本文献已被 CNKI 等数据库收录! | |