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Session F2: Atmospheric Effects on GNSS

Back Propagation Method for the Determination of the Vertical Location of Ionospheric Irregularities
Carles Quilis Alfonso, Blekinge Institute of Technology; Vinícius Ludwig-Barbosa, Danish Meteorological Institute; Joel Rasch, Anders Carlström, Beyond Gravity Sweden AB; Mats I. Pettersson, Viet Thuy Vu, Blekinge Institute of Technology
Date/Time: Wednesday, Sep. 18, 4:00 p.m.

Peer Reviewed Best Presentation

This study presents a new back-propagation (BP) method to determine the vertical location of ionospheric irregularities using GNSS Radio Occultation (GNSS-RO) signals. GNSS-RO employs signals from GNSS satellites intercepted by Low Earth Orbit (LEO) satellites to gather data about different atmospheric layers, e.g., the ionosphere, which are crucial for weather prediction and studying ionospheric dynamics. The BP method involves computing diffractive integrals along the LEO path to identify disturbances such as sporadic E-layer clouds and equatorial plasma bubbles (EPBs). By effectively unwinding diffraction and multipath effects, the method pinpoints regions with minimal amplitude disturbance, indicating the location of ionospheric irregularities along the ray path. Beside estimates along the horizontal axis, case studies demonstrate the new method's capabilities in locating and estimating the vertical extent of these irregularities, showing its potential to enhance ionospheric modelling and forecasting. Results achieved show consistency with previous publications on the topic as well as methodologies used to locate ionospheric irregularities, allowing the presented method a better picture of the ionospheric irregularity.



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