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A Comparison of Sporadic-E Occurrence Rates Using GPS Radio Occultation and Ionosonde Measurements

Rodney A. Carmona, O. Nava, E. V. Dao, Daniel J. Emmons

2022Remote Sensing26 citationsDOIOpen Access PDF

Abstract

Sporadic-E (Es) occurrence rates from Global Position Satellite radio occultation (GPS-RO) measurements have shown to vary by a factor of five between studies, motivating the need for a comparison with ground-based measurements. In an attempt to find accurate GPS-RO techniques for detecting Es formation, occurrence rates derived using five previously developed GPS-RO techniques are compared to ionosonde measurements over an eight-year period from 2010–2017. GPS-RO measurements within 170 km of a ionosonde site are used to calculate Es occurrence rates and compared to the ground-truth ionosonde measurements. The techniques are compared individually for each ionosonde site and then combined to determine the most accurate GPS-RO technique for two thresholds on sporadic-E intensity: no lower limit and fbEs ≥3 MHz. Overall, the YuS4 method shows the closest agreement with ionosonde measurements for total Es occurrence rates without a lower limit on intensity, while the phase-based Chu technique shows the closest agreement for fbEs ≥3 MHz. This analysis demonstrates that the variation in GPS-RO derived sporadic-E occurrence rates is due to varying thresholds on the sporadic-E intensities in terms of fbEs.

Topics & Concepts

IonosondeGlobal Positioning SystemGeodesyRadio occultationRemote sensingIonosphereSatelliteGeologyPhysicsComputer scienceTelecommunicationsAstronomyElectronQuantum mechanicsGeophysicsElectron densityIonosphere and magnetosphere dynamicsGNSS positioning and interferenceEarthquake Detection and Analysis
A Comparison of Sporadic-E Occurrence Rates Using GPS Radio Occultation and Ionosonde Measurements | Litcius