Accuracy analysis of global ionospheric maps in relation to their temporal resolution and solar activity level.
- University of Warmia and Mazury in Olsztyn, Institute of Geodesy and Civil Engineering , Department of Geodesy , Poland (beata.milanowska@uwm.edu.pl)
Since 1998 Ionosphere Associate Analysis Centers (IAAC) of the International GNSS Service (IGS) routinely provide global ionosphere maps (GIMs). They are used for a wide range of geophysical applications, including supporting precise positioning and improving space weather analysis. These GIMs are generated by different analysis centers with the use of different modelling techniques. Therefore they have different accuracy levels, which has already been evaluated in several studies. Until 2014 all GIMs were provided with 2-hour temporal resolution, and since 2015 some of the IAACs have started to provide their products with higher resolutions, up to 30 - 60 minutes. Since GIMs have different temporal resolutions, we investigated whether map interval affected their accuracies.
In this study we carried out IAAC GIM accuracy analysis for years 2014 and 2018, corresponding to high and low solar activity periods, respectively. Since in 2014 IAAC GIMs had 2-hour resolution, we also evaluated UQRG maps supplied with 15-minute interval. For low solar activity period (2018) we evaluated 4 models: CASG, CODG, EMRG and UQRG. In addition, we studied ionosphere map performance during two selected geomagnetic storms: on 19 February 2014 and 17 March 2015. Our accuracy evaluation was based on GIM-TEC comparisons to differential STEC derived from GNSS data and VTEC derived from altimetry measurements.
The results show that temporal interval has no significant impact on the overall, annual map RMS during both high and low solar activity periods. However, during geomagnetic storms, when reducing map interval, the map accuracy improves by almost 25%.
How to cite: Milanowska, B., Wielgosz, P., Krypiak-Gregorczyk, A., and Jarmołowski, W.: Accuracy analysis of global ionospheric maps in relation to their temporal resolution and solar activity level., EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-9715, https://doi.org/10.5194/egusphere-egu2020-9715, 2020