Preliminary mapping of ionospheric total electron content (TEC) over Ecuador using global positioning system (GPS) data

The ionosphere affects radio signals by altering their speed, direction, and trajectory, causing a temporary delay known as ionospheric delay, which is directly related to the total electron content (TEC). Although research in other equatorial locations has explored TEC implications, qualitative res...

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Bibliographic Details
Published inarXiv.org
Main Authors Lopez, Ericson D, Ubillus, Bryan A, Meza, Ariel A
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 27.03.2024
Subjects
Evolution
Global positioning systems
GPS
Ionosphere
Radio signals
Total Electron Content
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Summary:The ionosphere affects radio signals by altering their speed, direction, and trajectory, causing a temporary delay known as ionospheric delay, which is directly related to the total electron content (TEC). Although research in other equatorial locations has explored TEC implications, qualitative research is required to predict its behavior in the ionosphere. This study aims to depict TEC intensity evolution through color maps using data from 14 GPS receivers placed across Ecuador. For this purpose, pseudorange observables collected from the stations were used to present a calculation method for the TEC and its evolution during January 2022. The results revealed an oscillatory behavior in the evolution of the TEC, with intensity peaks that, on some occasions, approach and even exceed 100 T ECU (TEC units), while its local minimums never reach zero values.
ISSN:2331-8422