Highlights GTS distribution of orbit determination can be optimized by the proposed algorithm. GTS saturated number for orbit determination can be got by the proposed algorithm. ISL can weaken the influence of GTS distribution and number on orbit determination.

    Abstract A precise satellite orbit is the basis for high-precision services for users, and the determination of high-precision satellite orbits depends on the reasonable distribution and volume of ground tracking stations (GTSs). In July 2020, the BeiDou global navigation satellite system (BDS-3) was completed and began to be operated globally. Based on the principle of dynamic orbit determination, we first developed an algorithm to determine the optimal distribution and number of GTSs for accurate satellite orbit determination. Subsequently, based on 10 GTSs located in China, the optimal distribution and number of GTSs with and without inter-satellite link (ISL) ranging observations were determined. Finally, real measurements of GTS and ISL ranging observation data were used to validate the GTS results yielded by the algorithm. Using 18 BDS-3 satellites, and based on non-ISL observations and 10 Chinese regional GTSs, we found that GTSs distributed near the equator contributed significantly to the accuracy of orbit determination for these satellites compared to other GTSs. Orbit determination results obtained from the measured data of the optimal GTSs were more accurate than those obtained from the measured data of uniformly distributed global GTSs. Upon the addition of 55 uniformly distributed GTSs worldwide, the orbit determination accuracy for BDS-3 satellites tended to plateau. Moreover, following the addition of ISL, although the distribution and number of GTSs was optimized using the proposed algorithm, the orbit determination results from the measured data revealed that a change in the distribution and number of GTSs had a limited effect on the BDS-3 orbit determination results.


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    Title :

    Optimization of ground tracking stations for BDS-3 satellite orbit determination


    Contributors:
    Zhang, Rui (author) / Tu, Rui (author) / Zhang, Pengfei (author) / Fan, Lihong (author) / Han, Junqiang (author) / Wang, Siyao (author) / Hong, Ju (author) / Lu, Xiaochun (author)

    Published in:

    Advances in Space Research ; 68 , 10 ; 4069-4087


    Publication date :

    2021-07-19


    Size :

    19 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English