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Innovation and development of BeiDou Navigation Satellite System (BDS) project management mode |
Changfeng YANG( ) |
| China Satellite Navigation Office, Beijing 100071, China |
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H L Cai, Y N Meng, T Geng, X Xie (2020). Preliminary results of satellite-ground and inter-satellite joint precision orbit determination for BDS-3 satellites. Geomatics and Information Science of Wuhan University, 45(10): 1493–1500 (in Chinese)
|
| 2 |
China Satellite Navigation Office (2018). BeiDou Navigation Satellite System Open Service Performance Standard (version 2.0) (2018–12–28).
|
| 3 |
GNSS and LBS Association of China (2020). White paper on the development of China’s satellite navigation and location services industry (in Chinese)
|
| 4 |
B Z Guo (2011). Systems’ view and method of aerospace engineering management. Strategic Study of CAE, 13(4): 43–47 (in Chinese)
|
| 5 |
S R Guo, H L Cai, Y N Meng, C J Geng, X L Jia, Y Mao, T Geng, Y N Rao, H J Zhang, X Xie (2019). BDS-3 navigation and positioning technology system and service performance. Acta Geodaetica et Cartographica Sinica, 48(7): 810–821 (in Chinese)
|
| 6 |
L S Hua (2007). Systems Engineering and Aerospace Systems Engineering Management. Beijing: China Astronautic Publishing House (in Chinese)
|
| 7 |
E J Luan, H T Chen, Y Zhao, L Y Hu (2016). Engineered systems and systems engineering. Journal of Engineering Studies, 8(5): 480–490 (in Chinese)
|
| 8 |
X R Ma (2008). Systems engineering management and practice of China aerospace. Aerospace China, (1): 7–15 (in Chinese)
|
| 9 |
National Aeronautics and Space Administration (NASA) (2007). NASA Systems Engineering Handbook (in Chinese, trans. Zhu Y F, Li Q, Yang F, Lei Y L, Hou H T). Beijing: Publishing House of Electronics Industry, 2012
|
| 10 |
X S Qian (1982). System Engineering. Changsha: Hunan Science and Technology Press (in Chinese)
|
| 11 |
R Ruan, X Jia, L Feng, J Zhu, Z Huyan, J Li, Z Wei (2020). Orbit determination and time synchronization for BDS-3 satellites with raw inter-satellite link ranging observations. Satellite Navigation, 1(1): 8
https://doi.org/10.1186/s43020-020-0008-y
|
| 12 |
R G Ruan, Z Q Wei, X L Jia (2019). BDS-3 satellite orbit and clock determination with one-way inter-satellite pseudorange and monitoring station data. Acta Geodaetica et Cartographica Sinica, 48(3): 269–275 (in Chinese)
|
| 13 |
J D Sun, C F Yang (2017). System Engineering Management of BDS-2 Program. Beijing: National Defense Industry Press (in Chinese)
|
| 14 |
L H Wang (2006). Scientific management of China’s space activities. Strategic Study of CAE, (11): 1–6 (in Chinese)
|
| 15 |
Y X Yang (2010). Progress, contributions and challenges of BeiDou Navigation Satellite System. Acta Geodaetica et Cartographica Sinica, 39(1): 1–6 (in Chinese)
|
| 16 |
Y X Yang, W G Gao, S R Guo, Y Mao, Y F Yang (2019). Introduction to BeiDou-3 navigation satellite system. Navigation, 66(1): 7–18
https://doi.org/10.1002/navi.291
|
| 17 |
Y X Yang, Y Mao, B J Sun (2020). Basic performance and future developments of BeiDou global navigation satellite system. Satellite Navigation, 1(1): 1
https://doi.org/10.1186/s43020-019-0006-0
|
| 18 |
Y X Yang, Y Y Xu, J L Li, C Yang (2018). Progress and performance evaluation of BeiDou global navigation satellite system: Data analysis based on BDS-3 demonstration system. Science China Earth Sciences, 61(5): 614–624
https://doi.org/10.1007/s11430-017-9186-9
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| 19 |
Y B Yuan, N B Wang, Z S Li, X L Huo (2019). The BeiDou Global Broadcast Ionospheric Delay Correction Model (BDGIM) and its preliminary performance evaluation results. Navigation, 66(1): 55–69
https://doi.org/10.1002/navi.292
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