Comparison of BDS Station Clock Short-term Prediction Models and their Applications in Precise Orbit Determination

BDS (BeiDou Navigation Satellite System) ground tracking stations are equipped with high accuracy atomic clocks, and they are synchronized with the BDS time scale (BDT) via the Precise Orbit Determination (POD) processing. During the periods of satellite maneuver and post-maneuver, station clocks ar...

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Bibliographic Details
Published in:Chinese astronomy and astrophysics 2020-04, Vol.44 (2), p.258-268
Main Authors: Qian, CHEN, Jun-ping, CHEN, Chao, YU, Yi-ze, ZHANG, Jun-sheng, DING
Format: Article
Language:English
Subjects:
Clock error prediction
orbit determination
periodical term model
spectrum analysis
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Summary:BDS (BeiDou Navigation Satellite System) ground tracking stations are equipped with high accuracy atomic clocks, and they are synchronized with the BDS time scale (BDT) via the Precise Orbit Determination (POD) processing. During the periods of satellite maneuver and post-maneuver, station clocks are kept fixed as known values in the POD processing. To improve the real-time POD capability, station clocks need to be predicted. In this paper, the performance of three clock prediction models is evaluated, including quadratic polynomial model (QP), periodical term model (PM), and grey model (GM). The precision of clock fitting and prediction, as well as the performance of the prediction models in POD are compared. Data of six stations are used for test, and the results show that: the mean fitting accuracy of quadratic polynomial model, periodical term model, and grey model is 0.14ns, 0.05ns, 0.27ns, respectively; the 1h and 2h prediction precision of the three models is 1.17ns, 0.88ns, 1.28ns, and 2.72ns, 2.09ns, 2.53ns, respectively. Applying the 1h and 2h predicted station clocks in the POD, the 3D orbit accuracy reaches the best using the periodical term model, while the radial accuracy of satellite orbit is rather close for the three models with the difference within 3cm.
ISSN:0275-1062
1879-128X
DOI:10.1016/j.chinastron.2020.05.008