The next generation of IGS ROTI Maps: an extension toward global coverage

Andrzej Krankowski; Iurii Cherniak; Irina Zakharenkova; Adam Fron; Kacper Kotulak

doi:https://doi.org/10.5194/egusphere-egu2020-17905

[Back] [Session ST4.3]

EGU2020-17905

https://doi.org/10.5194/egusphere-egu2020-17905

EGU General Assembly 2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

The next generation of IGS ROTI Maps: an extension toward global coverage

Andrzej Krankowski¹, Iurii Cherniak^1,2, Irina Zakharenkova^1,3, Adam Fron¹, and Kacper Kotulak¹

Andrzej Krankowski et al.

¹University of Warmia and Mazury, Space Radio-Diagnostics Research Centre, Olsztyn, Poland (kand@uwm.edu.pl)
²COSMIC Program Office, University Corporation for Atmospheric Research, Boulder, CO, USA (tcherniak@ukr.net)
³IZMIRAN, Kaliningrad, Russia (zakharenkovai@gmail.com)

The International GNSS Service (IGS) has accepted for official release a new ionospheric product for specification of ionospheric irregularities occurrence and intensity over the Northern Hemisphere as derived from multi-site ground-based GPS observations. Initially, we focused on the Northern Hemisphere auroral and midlatitude regions because of the highest concentration of the GNSS users and user supporting permanent networks located within the American, European, and Asian sectors. The IGS ROTI maps product is routinely generated by multi-step processing of carrier phase delays in dual-frequency GPS signals and transferred to the IGS CDDIS database. Now, ROTI maps allow regular monitoring of ionospheric irregularities over the Northern Hemisphere and provide information about past events when strong ionospheric irregularities developed here.

Obviously, the plasma irregularities that occur at high, middle, and low latitudes have different physical mechanisms of their origin and development. For study of the climatological features of ionospheric irregularities occurrence, investigation of the ionospheric responses for Space Weather drivers, processes derived from below, this actual ROTI Map product is required to cover low latitudes and the Southern hemisphere polar and midlatitudes.

During last decade, numerous ground-based permanent receivers were deployed within the global and regional networks and these observations are publicly available. These data can support our activity toward extending the current IGS ROTI maps product for a global coverage. In this paper, we present initial results of ROTI maps product performance to characterize ionospheric irregularities exited by different types of geophysical processes and space weather events. The next generation of the IGS ROTI maps product can be a valuable tool for global ionospheric irregularities monitoring and retrospective analysis of plasma irregularities impact on the GNSS positioning in the “worst case scenario” domain.

The research is supported by the National Science Centre, Poland, through grants 2017/25/B/ST10/00479 and 2017/27/B/ST10/02190 and the National Centre for Research and Development, Poland, through grant DWM/PL-CHN/97/2019

Keywords: GPS, ionosphere, ionospheric irregularities, ROTI, IGS

How to cite: Krankowski, A., Cherniak, I., Zakharenkova, I., Fron, A., and Kotulak, K.: The next generation of IGS ROTI Maps: an extension toward global coverage, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-17905, https://doi.org/10.5194/egusphere-egu2020-17905, 2020