[1] |
Lv Y, Geng T, Zhao Q, et al. Characteristics of BeiDou-3 Experimental Satellite Clocks[J]. Remote Sensing,2018,10(11). |
[2] |
Zhao Q, Wang C, Guo J, et al. Precise orbit and clock determination for BeiDou-3 experimental satellites with yaw attitude analysis[J]. GPS Solutions,2018,22(1). |
[3] |
Li X, Yuan Y, Zhu Y, et al. Precise orbit determination for BDS3 experimental satellites using iGMAS and MGEX tracking networks[J]. Journal of Geodesy,2019,93(1). |
[4] |
Zhou R, Hu Z, Zhao Q, et al. Elevation-dependent pseudorange variation characteristics analysis for the new-generation Beidou satellite navigation system[J]. GPS Solutions,2018,22(3). |
[5] |
Xu X, Wang X, Liu J, et al. Characteristics of BD3 Global Service Satellites:POD, Open Service Signal and Atomic Clock Performance[J]. Remote Sensing,2019,11(13). |
[6] |
Montenbruck O, Hugentobler U, Dach R, et al. Apparent clock variations of the Block IIF-1(SVN62) GPS satellite[J]. GPS Solutions,2012,16(3). |
[7] |
Montenbruck O, Hauschild A, Steigenberger P, et al. Initial assessment of the COMPASS/BeiDou-2 regional navigation satellite system[J]. GPS Solutions,2013,17(2). |
[8] |
Zhao Q, Wang G, Liu Z, et al. Analysis of Beidou Satellite Measurements with Code Multipath and Geometry-Free Ionosphere-Free Combinations[J]. Sensors,2016,16(1). |
[9] |
Guo J, Xu X, Zhao Q, et al. Precise orbit determination for quad-constellation satellites at Wuhan University:strategy, result validation, and comparison[J]. Journal of Geodesy, 2016, 90(2):143-159. |
[10] |
Xu X, Li M, Li W, et al. Performance Analysis of Beidou-2/Beidou-3e Combined Solution with Emphasis on Precise Orbit Determination and Precise Point Positioning. Sensors 2018, 18, 135. |