Abstract
Dual one-way inter-satellite link (ISL) pseudoranges of BDS-3 satellites can be introduced as an additional measurement along with L-band pseudoranges and phases to improve the accuracy of precise orbit determination (POD). In the existing research, although the clock-free or geometry-free ISL observables are derived from the raw two one-way pseudoranges, only the clock-free observables are adopted for the ISL joint POD (Joint 1 POD) without considering the geometric-free observables. An improved joint (Joint 2 POD) strategy making full use of the clock-free and geometry-free observables is applied in this contribution. The orbits of ground-only POD, ISL-only POD, Joint 1 POD, and Joint 2 POD are comprehensively compared by the orbit overlapping differences, the Satellite Laser Ranging (SLR) residuals, and the characteristics of the satellite clock offsets estimated simultaneously. The comparisons prove that the performance of the Joint 2 POD strategy is better than that of the other three POD strategies regardless of the types of satellites. Moreover, this paper discusses ISL’s contribution to the station selection strategy in terms of the number and distribution. The experimental results show that, when there are more than 20 stations, each additional 10 stations contributes to a maximum of 7.5%, 3.9%, and 2.8% improvement on MEO, IGSO, and GEO satellites 3D accuracy, respectively. When the number of stations reaches 50, the precise orbits achieve similar accuracy to the results using 80 stations. In addition, after adding ISL data, the orbits estimated using 10 regional stations and 10 global stations are greatly improved, and the accuracy between them is only 0.9 cm in 3D errors.
Highlights
The third-generation BeiDou Navigation Satellite System (BDS-3), which is currently being deployed, is a global satellite navigation system
After the addition of inter-satellite link (ISL) data to precision orbit determination (POD), the accuracy obtained by the two strategies is comparable and the 3D error using regional stations is reduced to 15.2 cm
For the ground-only POD results, the along-track error generated from 10 regional stations is worse than that generated from 10 global stations
Summary
The third-generation BeiDou Navigation Satellite System (BDS-3), which is currently being deployed, is a global satellite navigation system. An improved joint POD strategy using ground-tracking and ISL observations of the BDS-3 satellites is applied. This strategy makes full use of both clock-free and geometry-free ISL observables derived from the raw dual one-way ISL observations, which has not been used by previous studies. The satellite orbit parameters, as well as satellite clock offsets estimated at the same time, are evaluated and compared Through this improved strategy, the ISL’s contribution to joint POD in the case of the selection of stations, including the distribution of stations and the number of stations, is analyzed separately for three types of BDS-3 satellites
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