Assessment of GPS positioning performance using different signals in the context of ionospheric scintillation: a month-long case study on São José dos Campos, Brazil

Abstract: The ionospheric scintillation associated to small-scale irregularities in the ionospheric layer can lead to performance degradation of Global Navigation Satellite Systems (GNSS) signals, and the reduction of positioning accuracy. The influence of the ionospheric layer on the GNSS systems is expected to be different for each signal since it is transmitted on different carrier frequencies. This paper presents the results of a quantitative analysis of the scintillation amplitude of GPS (Global Positioning System)… Show more

“…As GNSS signals traverse the ionosphere, they experience delays and frequency shifts due to electron density fluctuations, enabling the quantification and mapping of TEC across specific geographic regions [26]. TEC's applications extend beyond earthquake precursors, serving as a crucial component in fields like satellite-based navigation and communication systems, where accurate measurements are vital for mitigating ionospheric effects on GNSS signals, including signal degradation and positioning errors [27]. Additionally, TEC measurements have found application in space weather monitoring, including the detection and analysis of solar flares, where rapid variations in TEC can serve as valuable indicators of solar-induced ionospheric disturbances [28].…”

Ionospheric Total Electron Content (TEC) Anomalies as Earthquake Precursors: Unveiling the Geophysical Connection Leading to the 2023 Moroccan 6.8 Mw Earthquake

“…As GNSS signals traverse the ionosphere, they experience delays and frequency shifts due to electron density fluctuations, enabling the quantification and mapping of TEC across specific geographic regions [26]. TEC's applications extend beyond earthquake precursors, serving as a crucial component in fields like satellite-based navigation and communication systems, where accurate measurements are vital for mitigating ionospheric effects on GNSS signals, including signal degradation and positioning errors [27]. Additionally, TEC measurements have found application in space weather monitoring, including the detection and analysis of solar flares, where rapid variations in TEC can serve as valuable indicators of solar-induced ionospheric disturbances [28].…”

Ionospheric Total Electron Content (TEC) Anomalies as Earthquake Precursors: Unveiling the Geophysical Connection Leading to the 2023 Moroccan 6.8 Mw Earthquake