On the GPS TEC variability for full solar cycle and its comparison with IRI-2016 model

The long-term comparison of International Reference Ionosphere (IRI-2016) predicted total electron content (TEC) with GPS TEC has been performed over low latitude northern EIA crest region (geographic: 22.29° N, 70.74° E). The model bias for various phases of solar activity 23-24 has been investigat...

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Bibliographic Details
Published in:Astrophysics and space science 2022-08, Vol.367 (8), Article 80
Main Authors: Jethva, Chintan, Bagiya, Mala S., Joshi, H. P.
Format: Article
Language:English
Subjects:
Astrobiology
Astronomy
Astrophysics
Astrophysics and Astroparticles
Bias
Cosmology
Diurnal variations
Ionosphere
Ionospheric electron content
Ionospheric variations
Latitude
Modelling
Observations and Techniques
Original Article
Physics
Physics and Astronomy
Seasonal comparisons
Solar activity
Solar cycle
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Statistical analysis
Total Electron Content
Winter
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Summary:The long-term comparison of International Reference Ionosphere (IRI-2016) predicted total electron content (TEC) with GPS TEC has been performed over low latitude northern EIA crest region (geographic: 22.29° N, 70.74° E). The model bias for various phases of solar activity 23-24 has been investigated. The statistical analysis results show that (i) Diurnal variation of TEC predicted by the IRI-2016 model mostly overestimates GPS TEC during noon hours and underestimates at the nighttime. (ii) The seasonal comparison shows that model fits best during the summer months with the least bias. In winter, noon time overestimation by the model was found irrespective of solar activity. Further, in equinoctial months, noontime bias varies with the solar activity; i.e., the model overestimates (underestimates) the observed ionospheric variations during low (high) solar activity. (iii) GPS TEC for the high solar activity year of 2014 shows a winter anomaly prominently. The nature of the IRI-2016 model bias was assessed over a low-latitude region for more than one solar cycle in this study, which will help to further improve the model.
ISSN:0004-640X
1572-946X
DOI:10.1007/s10509-022-04112-y