Litcius/Paper detail

A satellite-based method for modeling ionospheric slant TEC from GNSS observations: algorithm and validation

Wen J. Li, Zishen Li, Ningbo Wang, Ang Liu, Kai Zhou, Hong Yuan, Andrzej Krankowski

2021GPS Solutions32 citationsDOIOpen Access PDF

Abstract

Abstract Total Electron Content (TEC) modeling is critical for Global Navigation Satellite System (GNSS) users to mitigate ionospheric delay errors. The mapping function is usually used for Vertical TEC ionospheric correction models for slant and vertical TEC conversion. But the mapping function cannot characterize TEC variation in different azimuths between the user and satellites. The ionospheric modeling error resulting from the mapping function tends to be bigger in middle and low latitudes. Therefore, a new algorithm for ionospheric Slant TEC (STEC) modeling with Satellite-based Ionospheric Model (SIM) is proposed in this contribution. Validation tests are carried out with GNSS observation data from the Crustal Movement Observation Network of China during different solar activities and in different seasons. The performance of SIM is compared with that of several commonly-used Global Ionospheric Map (GIM) and Regional Ionospheric Map (RIM) products. The results show that the STEC bias and STD of SIM are within 1.0 TECU and about 2.0 TECU, respectively, and SIM can correct over 90% STEC RMS errors, outperforming the GIM and RIM products. Consequently, the SIM algorithm can be a new option for high-accuracy ionospheric delay correction in regional and local GNSS networks.

Topics & Concepts

TECGNSS applicationsIonosphereTotal electron contentSatelliteInternational Reference IonosphereSatellite systemRemote sensingGeodesyAzimuthAlgorithmGlobal Positioning SystemGeologyEnvironmental scienceComputer scienceGeophysicsMathematicsAerospace engineeringTelecommunicationsEngineeringGeometryIonosphere and magnetosphere dynamicsGNSS positioning and interferenceGeophysics and Gravity Measurements