System-specific systematic errors in earth rotation parameters derived from GPS, GLONASS, and Galileo

Autor:	Krzysztof Sośnica, Rolf Dach, Lars Prange, Grzegorz Bury, Radosław Zajdel
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	Orbit modeling 010504 meteorology & atmospheric sciences Computer science business.industry 520 Astronomy Satellite constellation Geodetic datum 010502 geochemistry & geophysics Geodesy 01 natural sciences GNSS applications Polar motion Global Positioning System General Earth and Planetary Sciences GLONASS business 0105 earth and related environmental sciences Earth's rotation
Zdroj:	Zajdel, Radoslaw; Sosnica, Krzysztof; Bury, Grzegorz; Dach, Rolf; Prange, Lars (2020). System-specific systematic errors in earth rotation parameters derived from GPS, GLONASS, and Galileo. GPS solutions, 24(3) Springer 10.1007/s10291-020-00989-w
DOI:	10.1007/s10291-020-00989-w
Popis:	The earth rotation parameters (ERPs) are time-variable global geodetic parameters with a purely geophysical origin. Theoretically, the estimates of these parameters should be independent of the satellite constellation used in GNSS processing. Nonetheless, clear differences in the time series of ERPs are noticed when using different GNSS constellations. In this study, GPS, GLONASS, and Galileo estimates of ERP have been extensively evaluated in search of system-specific signals. Some of the processing details, such as modeling of the direct solar radiation pressure and length of the orbital arc, also have an impact on the ERP estimates. The GPS-based polar motion estimates are of better quality than those based on GLONASS and Galileo, which are susceptible to deficiencies in the orbit modeling. On the other hand, we observe a systematic bias of GPS-based length-of-day (LoD) with respect to the IERS-C04-14 values with a mean offset of − 22.4 µs/day. The Galileo-based solutions are almost entirely free of this issue. The extension of the orbital arc in the GNSS processing from 1 to 3 days is superior for the quality of the ERPs, especially for pole coordinate rates and LoD. The spurious signals inherently influence the Galileo-based and GLONASS-based ERPs at the frequencies which arise from the resonance between the satellite revolution period and earth rotation, e.g., 3.4 days for Galileo and 3.9 days for GLONASS. These and the draconitic signals overshadow the GNSS-based ERP estimates. Although all the system-specific solutions are affected by the artificial signals, the combination of different GNSS mitigates most of the uncertainties and improves the ERP results.
Databáze:	OpenAIRE
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