Improving the Orbits of the BDS-2 IGSO and MEO Satellites with Compensating 
Thermal Radiation Pressure Parameters

Wang, Chen; Guo, Jing; Zhao, Qile; Ge, Maorong

doi:10.3390/rs14030641

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Improving the Orbits of the BDS-2 IGSO and MEO Satellites with Compensating Thermal Radiation Pressure Parameters

Authors

Wang, Chen
External Organizations;

Guo, Jing
External Organizations;

Zhao, Qile
External Organizations;

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Ge, Maorong
1.1 Space Geodetic Techniques, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

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Citation

Wang, C., Guo, J., Zhao, Q., Ge, M. (2022): Improving the Orbits of the BDS-2 IGSO and MEO Satellites with Compensating Thermal Radiation Pressure Parameters. - Remote Sensing, 14, 3, 641.
https://doi.org/10.3390/rs14030641

Cite as: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5011350

Abstract

The orbit accuracy of the navigation satellites relies on the accurate knowledge of the forces on the spacecraft, in particular the non-conservative perturbations. This study focuses on the Inclined Geosynchronous Orbit (IGSO) and Medium Earth Orbit (MEO) satellites of the regional Chinese BeiDou Navigation Satellite System (BDS-2), for which apparent deficiencies of non-conservative models are identified and evidenced in the Satellite Laser Ranging (SLR) residuals. The orbit errors derived from the empirical 5-parameter Extended CODE Orbit Model (ECOM) as well as a semi-analytical adjustable box-wing model show prominent dependency on the Sun elongation angle, even in the yaw-steering attitude mode. Hence, a periodic acceleration in the normal direction of the +X surface, presumably generated by the mismodeled thermal radiation pressure, is introduced. The SLR validations reveal that the Sun elongation angle-dependent systematic errors were significantly reduced, and the orbit accuracy was improved by 10–30% to approximately 4.5 cm and 3.0 cm for the BDS-2 IGSO and MEO satellites, respectively.