On August 12, 2024, researchers from the Shanghai Astronomical Observatory, Chinese Academy of Sciences, published a study (DOI: 10.1186/s43020-024-00147-4) in Satellite Navigation, demonstrating that integrating regional ground station data with LEO satellite measurements significantly improves Global Positioning System (GPS) orbit determination. The study analyzed data from January 20 to 26, 2019, involving 13 LEO satellites and six International GNSS Service stations across China. The findings indicate that this approach can achieve centimeter-level accuracy in GPS orbit and clock products, which is crucial for high-precision GNSS applications.
This study enhances GPS orbit determination by integrating regional ground station data with measurements from 13 LEO satellites. Conducted by the Shanghai Astronomical Observatory, the research utilized six GNSS stations around China and LEO satellites from missions such as GRACE Follow-On, SWARM, Sentinel, Jason and China meteorological satellites. The integration method significantly improved GPS orbit accuracy, achieving average errors of 2.27 cm in the radial direction, 3.45 cm along-track, and 3.08 cm cross-track, with clock accuracy better than 0.15 nanoseconds. The LEO satellites also demonstrated high precision, with most errors within 4 cm. This approach showcases the potential of LEO satellites to enhance GNSS accuracy, especially in regions with limited ground station coverage, offering a robust solution for achieving high-precision GPS orbit and clock products crucial for various applications.
Dr. Chengpan Tang, the lead researcher from the Shanghai Astronomical Observatory, highlighted the study’s importance: “Integrating LEO satellite data with regional ground stations provides a practical solution to the challenges of high-precision orbit determination in GNSS. Our findings suggest that this approach can deliver reliable orbit and clock products, which are vital for a broad range of applications, from navigation to Earth observation.”
The integration of LEO satellites with regional ground stations marks a significant advancement in GNSS technology. This method not only improves the accuracy of GPS orbit determination but also opens up new possibilities for high-precision applications, particularly in regions with sparse ground station coverage. As LEO satellite constellations continue to expand, this approach could become a standard practice, ensuring more reliable and accurate GNSS services worldwide.
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References
DOI
Original Source URL
https://doi.org/10.1186/s43020-024-00147-4
Funding information
This research is sponsored by the National Natural Science Foundation of China (Grant No. 12103077; Grant No. 12173072).
About Satellite Navigation
Satellite Navigation (E-ISSN: 2662-1363; ISSN: 2662-9291) is the official journal of Aerospace Information Research Institute, Chinese Academy of Sciences. The journal aims to report innovative ideas, new results or progress on the theoretical techniques and applications of satellite navigation. The journal welcomes original articles, reviews and commentaries.