Abstract: | Below the altitude of peak density height (hmF2), it is rather easy to obtain the bottomside of the vertical electron density (Ne(h)) profile using measurements from ground based ionosonde and other sounding instruments. However, accurate modeling of the topside of the Ne(h) profile has always been a challenge. Since the introduction of radio occultation (RO) technique for the ionospheric monitoring, our understanding of the topside ionosphere has significantly improved. This study shows that by assimilating ionosonde foF2 and collocated RO Ne(h) profile data, a full-scale Ne(h) profile at any ionosonde location can be accurately modeled using NeQuick2 electron density model with multiple effective ionization level (Az) parameters. To implement the technique, NeQuick2 was modified with multiple effective parameters with each one of them having a task to model a specific part of the Ne(h) profile separately and exclusively. As a result, the shape of the resulting Ne(h) profile is matched closely with the corresponding experimental RO Ne(h) profile. To assess the accuracy of the technique, a comparison of vertical total electron content (VTEC) was calculated from experimental (RO retrieved), and NeQuick2 model assimilated Ne(h) profiles is presented. A very strong correlation has been found between the modeled and experimental Ne(h) profiles based on VTEC values. The experimental and modeled profile TEC values are found to be 99.5% correlated. The proposed assimilation technique is self-sustaining, robust, and is not affected by the solar activity, season, and geographical location of the ionosonde. |
Published in: |
Proceedings of the 34th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS+ 2021) September 20 - 24, 2021 Union Station Hotel St. Louis, Missouri |
Pages: | 4015 - 4020 |
Cite this article: | Shaikh, Muhammad Mubasshir, Fernini, Ilias, "Retrieval of Ne(h) Profile for Ionosonde by Assimilating Collocated Radio Occultation Data into NeQuick2," Proceedings of the 34th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS+ 2021), St. Louis, Missouri, September 2021, pp. 4015-4020. https://doi.org/10.33012/2021.18028 |
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