Ionospheric corrections tailored to the Galileo High Accuracy Service
Cita com:
hdl:2117/357177
Tipus de documentArticle
Data publicació2021-12
Condicions d'accésAccés obert
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Reconeixement 4.0 Internacional
ProjecteNAVSCIN - High Accuracy Navigation under Scintillation Conditions (EC-H2020-797461)
DESARROLLO DE UN SISTEMA INTEGRADO DE NAVEGACION POR SATELITE Y NAVEGACION INERCIAL PARA LA NAVEGACION AUTONOMA DE VEHICULOS A ESCALA MUNDIAL (AEI-RTI2018-094295-B-I00)
DESARROLLO DE UN SISTEMA INTEGRADO DE NAVEGACION POR SATELITE Y NAVEGACION INERCIAL PARA LA NAVEGACION AUTONOMA DE VEHICULOS A ESCALA MUNDIAL (AEI-RTI2018-094295-B-I00)
Abstract
The Galileo High Accuracy Service (HAS) is a new capability of the European Global Navigation Satellite System that is currently under development. The Galileo HAS will start providing satellite orbit and clock corrections (i.e. non-dispersive effects) and soon it will also correct dispersive effects such as inter-frequency biases and, in its full capability, ionospheric delay. We analyse here an ionospheric correction system based on the fast precise point positioning (Fast-PPP) and its potential application to the Galileo HAS. The aim of this contribution is to present some recent upgrades to the Fast-PPP model, with the emphasis on the model geometry and the data used. The results show the benefits of integer ambiguity resolution to obtain unambiguous carrier phase measurements as input to compute the Fast-PPP model. Seven permanent stations are used to assess the errors of the Fast-PPP ionospheric corrections, with baseline distances ranging from 100 to 1000 km from the reference receivers used to compute the Fast-PPP corrections. The 99% of the GPS and Galileo errors in well-sounded areas and in mid-latitude stations are below one total electron content unit. In addition, large errors are bounded by the error prediction of the Fast-PPP model, in the form of the variance of the estimation of the ionospheric corrections. Therefore, we conclude that Fast-PPP is able to provide ionospheric corrections with the required ionospheric accuracy, and realistic confidence bounds, for the Galileo HAS.
CitacióRovira-Garcia, A. [et al.]. Ionospheric corrections tailored to the Galileo High Accuracy Service. "Journal of geodesy", Desembre 2021, vol. 95, núm. 12, p. 130:1-130:14.
ISSN0949-7714
Versió de l'editorhttps://link.springer.com/article/10.1007%2Fs00190-021-01581-x
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JOGE2021_Ionosp ... nsTailoredtoGalileoHAS.pdf | 5,883Mb | Visualitza/Obre |