IONOSPHERIC TEMPORAL-SPATIAL CORRELATION ANALYSIS USING GNSS NETWORKS OVER CHINA
Keywords: ionospheric delays, sunset effect, sunset enhancement, scintillation, ionospheric temporal-spatial correlation, Equatorial Ionization Anomaly (EIA)
Abstract. The Global Navigation Satellite System (GNSS) is well recognized as a valuable tool for studying ionospheric variation, providing a means to measure variations in the Total Electron Content (TEC) of the ionosphere. In this manuscript, we focus specifically on the use of GNSS networks to study ionospheric diurnal variation over China, highlighting some of the key findings and challenges in this area. We begin by describing the basic principles of GNSS-based TEC measurements. We then analyze ionospheric diurnal variation using about 320 GNSS stations in China, including the Southern, Middle, and Northern areas. We also discuss some of the challenges associated with GNSS-based TEC measurement and analysis, such as the effects of receiver and satellite biases and understanding of spatial–temporal TEC variation. Finally, we highlight the sunset enhancement and scintillation of GNSS-based ionospheric diurnal variation research. Overall, this abstract provides a valuable overview of the use of GNSS networks for studying ionospheric diurnal variation and its potential applications for improving space weather forecasting and mitigating the effects of ionospheric disturbances on GNSS-based navigation systems.