A review on the numerical simulation of equatorial plasma bubbles toward scintillation evaluation and forecasting

T Yokoyama - Progress in Earth and Planetary Science, 2017 - Springer
Equatorial plasma bubbles (EPBs) have been a longstanding and increasingly important
subject because they cause severe scintillations in radio waves from Global Navigation …

Investigating ionospheric scintillation effects on multifrequency GPS signals

LA Salles, BC Vani, A Moraes, E Costa… - Surveys in …, 2021 - Springer
Over the last 15 years, the satellite constellation of the global positioning system (GPS) has
been modernized for more precise applications, with the introduction of the L2C and L5 …

Disentangling ionospheric refraction and diffraction effects in GNSS raw phase through fast iterative filtering technique

H Ghobadi, L Spogli, L Alfonsi, C Cesaroni, A Cicone… - GPS Solutions, 2020 - Springer
We contribute to the debate on the identification of phase scintillation induced by the
ionosphere on the global navigation satellite system (GNSS) by introducing a phase …

On the Relationship Between the Rate of Change of Total Electron Content Index (ROTI), Irregularity Strength (CkL), and the Scintillation Index (S4)

CS Carrano, KM Groves, CL Rino - Journal of Geophysical …, 2019 - Wiley Online Library
We present a new quantitative theory for the rate of change of total electron content index
(ROTI) by noting its straightforward relationship to the phase structure function of …

New capabilities for prediction of high‐latitude ionospheric scintillation: A novel approach with machine learning

RM McGranaghan, AJ Mannucci, B Wilson… - Space …, 2018 - Wiley Online Library
As societal dependence on transionospheric radio signals grows, space weather impact on
these signals becomes increasingly important yet our understanding of the effects remains …

Modeling of ionospheric scintillation

D Vasylyev, Y Béniguel, W Volker… - Journal of Space …, 2022 - swsc-journal.org
A signal, such as from a GNSS satellite or microwave sounding system, propagating in the
randomly inhomogeneous ionosphere, experiences chaotic modulations of its amplitude …

The refractive and diffractive contributions to GPS signal scintillation at high latitudes during the geomagnetic storm on 7–8 September 2017

Y Zheng, C Xiong, Y Jin, D Liu, K Oksavik… - Journal of Space …, 2022 - swsc-journal.org
Different indices have been used to reflect, or monitor the ionospheric scintillation, eg the
detrended carrier phase, σ φ, S 4, the rate of change of the vertical total electron content …

[HTML][HTML] Electron density fluctuations from Swarm as a proxy for ground-based scintillation data: A statistical perspective

D Kotova, Y Jin, L Spogli, AG Wood, J Urbar… - Advances in Space …, 2023 - Elsevier
The Swarm satellite mission has been used for numerous studies of the ionosphere. Here
we use a global product, based on electron density measurements from Swarm that …

Ionospheric effects, monitoring, and mitigation techniques

YJ Morton, Z Yang, B Breitsch… - … navigation, and timing …, 2020 - Wiley Online Library
Radio waves such as the global navigation satellite system (GNSS) signals propagating
through the ionosphere will experience varying levels of absorption, refraction, scattering …

Equatorial scintillation amplitude fading characteristics across the GPS frequency bands

Y Jiao, D Xu, Y Morton, C Rino - Navigation: Journal of The …, 2016 - Wiley Online Library
Deep signal fading during ionospheric scintillation possesses a threat to GNSS signal
tracking and degrades position, navigation, and timing solution accuracy. Understanding the …