Sub-daily polar motion from GPS, GLONASS, and Galileo
Radosław Zajdel , Krzysztof Sośnica , Grzegorz Bury , Rolf Dach , Lars Prange , Kamil Kaźmierski
AbstractWe derive an empirical model of the sub-daily polar motion (PM) based on the multi-GNSS processing incorporating GPS, GLONASS, and Galileo observations. The sub-daily PM model is based on 3-year multi-GNSS solutions with a 2 h temporal resolution. Firstly, we discuss differences in sub-daily PM estimates delivered from individual GNSS constellations, including GPS, GLONASS, Galileo, and the combined multi-GNSS solutions. Secondly, we evaluate the consistency between the GNSS-based estimates of the sub-daily PM with three independent models, i.e., the model recommended in the International Earth Rotation and Reference Systems Service (IERS) 2010 Conventions, the Desai–Sibois model, and the Gipson model. The sub-daily PM estimates, which are derived from system-specific solutions, are inherently affected by artificial non-tidal signals. These signals arise mainly from the resonance between the Earth rotation period and the satellite revolution period. We found strong spurious signals in GLONASS-based and Galileo-based results with amplitudes up to 30 µas. The combined multi-GNSS solution delivers the best estimates and the best consistency of the sub-daily PM with external geophysical and empirical models. Moreover, the impact of the non-tidal spurious signals in the frequency domain diminishes in the multi-GNSS combination. After the recovery of the tidal coefficients for 38 tides, we infer better consistency of the GNSS-based empirical models with the new Desai–Sibois model than the model recommended in the IERS 2010 Conventions. The consistency with the Desai–Sibois model, in terms of the inter-quartile ranges of tidal amplitude differences, reaches the level of 1.6, 5.7, 6.3, 2.2 µas for the prograde diurnal tidal terms and 1.2/2.1, 2.3/6.0, 2.6/5.5, 2.1/5.1 µas for prograde/retrograde semi-diurnal tidal terms, for the combined multi-GNSS, GPS, GLONASS, and Galileo solutions, respectively.
|Journal series||Journal of Geodesy, ISSN 0949-7714, e-ISSN 1432-1394, (N/A 140 pkt)|
|Publication size in sheets||1.3|
|Keywords in English||Multi-GNSS, Galileo, High-frequency earth rotation parameters, Pole coordinates, Ocean tides|
|ASJC Classification||; ;|
|License||Journal (articles only); published final; ; with publication|
|Score||= 140.0, 20-04-2021, ArticleFromJournal|
|Publication indicators||= 0; = 1; : 2018 = 2.727; : 2019 = 4.806 (2) - 2019=5.28 (5)|
|Citation count*||1 (2021-05-07)|
* presented citation count is obtained through Internet information analysis and it is close to the number calculated by the Publish or Perish system.