Abstract
Global navigation services from the quad-constellation of GPS, GLONASS, BDS, and Galileo are now available. The international GNSS monitoring and assessment system (iGMAS) aims to evaluate the navigation performance of the current quad systems under a unified framework. In order to assess impact of orbit and clock errors on the positioning accuracy, the user range error (URE) is always taken as a metric by comparison with the precise products. Compared with the solutions from a single analysis center, the combined solutions derived from multiple analysis centers are characterized with robustness and reliability and preferred to be used as references to assess the performance of broadcast ephemerides. In this paper, the combination method of iGMAS orbit and clock products is described, and the performance of the combined solutions is evaluated by various means. There are different internal precisions of the combined orbit and clock for different constellations, which indicates that consistent weights should be assigned for individual constellations and analysis centers included in the combination. For BDS-3, Galileo, and GLONASS combined orbits of iGMAS, the root-mean-square error (RMSE) of 5 cm is achieved by satellite laser ranging (SLR) observations. Meanwhile, the SLR residuals are characterized with a linear pattern with respect to the position of the sun, which indicates that the solar radiation pressure (SRP) model adopted in precise orbit determination needs further improvement. The consistency between combined orbit and clock of quad-constellation is validated by precise point positioning (PPP), and the accuracies of simulated kinematic tests are 1.4, 1.2, and 2.9 cm for east, north, and up components, respectively.
Highlights
Over the past decade, apart from the ongoing modernization of GPS and GLONASS, two new global navigation satellite systems (GNSSs) have been developed, namely the BeiDou navigation satellite system (BDS-3) of China and the Galileo system of Europe
In order to analyze whether a systematic error exists in international GNSS monitoring and assessment system (iGMAS) combined orbits, the satellite laser ranging (SLR) residuals are shown in Figure 11 as a function of the satellite elongation angle for BDS satellites manufactured by CAST and SECM
This paper systematically introduces the strategies of orbit and clock combination using multi-GNSS products from iGMAS analysis centers (ACs)
Summary
Apart from the ongoing modernization of GPS and GLONASS, two new global navigation satellite systems (GNSSs) have been developed, namely the BeiDou navigation satellite system (BDS-3) of China and the Galileo system of Europe. In order to obtain assessment results for BDS, as well as other GNSS for comparison, robust precise combined orbit and clock solutions are conducted by iGMAS. The precise orbit and 30s-sampling clock products for BDS-2/BDS-3, GPS, GLONASS and Galileo have been provided by multiple iGMAS ACs since the middle of 2019. Sensors 2022, 22, 457 multiple ACs, and present a detailed analysis of the accuracy of iGMAS combined products in terms of internal precision and comparison with IGS products.
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