A comparison between two of the most used scintillation models and experimental data is presented. The experimental data have been derived from a GPS scintillation monitor developed at Cornell University and placed in Tucuman (Argentina), under the peak of the anomaly. The models used (GISM and WBMOD) have been run for the geophysical conditions corresponding to the measurements. The comparison is done by subdividing the information on the basis of an ionospheric grid of 5°×5° surface square boxes. The comparison has been performed for several local times, from 18 LT until 04 LT. Here, only a few cases of particular interest are shown. The goal is to understand if the models are able to forecast actual scintillation morphology (from the sat...
Ionospheric scintillations can seriously jeopardize the reliability of the GNSS signals and conseque...
Ionospheric scintillation is one of the most challenging problems in Global Navigation Satellite Sys...
Transionospheric radio signals may experience fluctuations in their amplitude and phase due to irreg...
A comparison between two of the most used scintillation models and experimental data is presented. T...
Radio wave scintillations are rapid fluctuations in both amplitude and phase of signals propagating ...
Under normal circumstances, errors due to GPS signals travelling through the ionosphere can be model...
The ionosphere impacts radio-wave propagation, notably up to a few GHz. The main applications impact...
153-159The phenomenon of ionospheric scintillations has long been observed by radio astronomers and ...
Existing climatological ionosphere models, for example, GISM, SCIONAV, WBMOD, and STIPEE, have known...
The characterization of the ionosphere and its impact on the propagation of radio-wave signals has r...
Amplitude scintillation data from GPS were analyzed. The objective is to estimate the impact of iono...
Satellite-based communications, navigation systems and many scientific instruments rely on observati...
Ionospheric scintillation, often described using the parameters S4 and σφ is one of the most severe ...
[1] Ionospheric scintillations are one of the earliest known effects of space weather. Caused by ion...
55-61Maps of scintillation indexes over the region of the earth viewed by a geostationary satellite ...
Ionospheric scintillations can seriously jeopardize the reliability of the GNSS signals and conseque...
Ionospheric scintillation is one of the most challenging problems in Global Navigation Satellite Sys...
Transionospheric radio signals may experience fluctuations in their amplitude and phase due to irreg...
A comparison between two of the most used scintillation models and experimental data is presented. T...
Radio wave scintillations are rapid fluctuations in both amplitude and phase of signals propagating ...
Under normal circumstances, errors due to GPS signals travelling through the ionosphere can be model...
The ionosphere impacts radio-wave propagation, notably up to a few GHz. The main applications impact...
153-159The phenomenon of ionospheric scintillations has long been observed by radio astronomers and ...
Existing climatological ionosphere models, for example, GISM, SCIONAV, WBMOD, and STIPEE, have known...
The characterization of the ionosphere and its impact on the propagation of radio-wave signals has r...
Amplitude scintillation data from GPS were analyzed. The objective is to estimate the impact of iono...
Satellite-based communications, navigation systems and many scientific instruments rely on observati...
Ionospheric scintillation, often described using the parameters S4 and σφ is one of the most severe ...
[1] Ionospheric scintillations are one of the earliest known effects of space weather. Caused by ion...
55-61Maps of scintillation indexes over the region of the earth viewed by a geostationary satellite ...
Ionospheric scintillations can seriously jeopardize the reliability of the GNSS signals and conseque...
Ionospheric scintillation is one of the most challenging problems in Global Navigation Satellite Sys...
Transionospheric radio signals may experience fluctuations in their amplitude and phase due to irreg...