Add to ORKGDifferential Doppler measurements of signals from NNSS Navigational Satellites can be used to give the electron content of the ionosphere. Measurements carried out up to now using data from one station provide limited information about the structure of the ionosphere, since the method relies on an assumption being made about the prevailing ionospheric conditions. If these conditions are not fulfilled, this method can lead to large errors in the predicted electron content. In the method described in this paper, Differential Doppler data from two stations are combined, resulting in considerably more reliable results, particularly when there is strong horizontal structure in the ionosphere, as is often the case in Polar regions. Examples of mo...
The differential absorption method of retrieving D-region electron density profiles from partially r...
Inversion algorithms are available to derive the vertical electron density profile at the midpoint o...
The current status of the Deep Space Network advanced systems research into ionospheric calibration ...
Differential Doppler measurements of signals from US-Navy Navigational System (NNSS) satellites can ...
In order to obtain an accurate TEC (Total Electron Content) from the differential Doppler frequency ...
International audienceThe first joint common volume measurements by the Digisonde Portable Sounder (...
GPS systems can give a good approximation of the Slant Total Electron Content in a cylindrical path ...
The ionosphere is commonly divided into the portion below (bottomside) and above (topside) the regio...
The ionized upper portion of the atmosphere, the ionosphere, affects radio signals traveling between...
An experimental method, using simultaneous vertical and slant observations, has been derived for est...
This paper is a review of the main results achieved in the framework of COST 271 Action Working Grou...
Vertical total electron content (VTEC) parameters estimated using global navigation satellite system...
With the appearance of such satellite systems as GPS, GLONASS, Galileo, and others, the total electr...
It is shown how the electron distribution in the upper regions of the ionosphere may be determined f...
The electron content data, obtained by satellite-to-satellite occultations of radio signals can lead...
The differential absorption method of retrieving D-region electron density profiles from partially r...
Inversion algorithms are available to derive the vertical electron density profile at the midpoint o...
The current status of the Deep Space Network advanced systems research into ionospheric calibration ...
Differential Doppler measurements of signals from US-Navy Navigational System (NNSS) satellites can ...
In order to obtain an accurate TEC (Total Electron Content) from the differential Doppler frequency ...
International audienceThe first joint common volume measurements by the Digisonde Portable Sounder (...
GPS systems can give a good approximation of the Slant Total Electron Content in a cylindrical path ...
The ionosphere is commonly divided into the portion below (bottomside) and above (topside) the regio...
The ionized upper portion of the atmosphere, the ionosphere, affects radio signals traveling between...
An experimental method, using simultaneous vertical and slant observations, has been derived for est...
This paper is a review of the main results achieved in the framework of COST 271 Action Working Grou...
Vertical total electron content (VTEC) parameters estimated using global navigation satellite system...
With the appearance of such satellite systems as GPS, GLONASS, Galileo, and others, the total electr...
It is shown how the electron distribution in the upper regions of the ionosphere may be determined f...
The electron content data, obtained by satellite-to-satellite occultations of radio signals can lead...
The differential absorption method of retrieving D-region electron density profiles from partially r...
Inversion algorithms are available to derive the vertical electron density profile at the midpoint o...
The current status of the Deep Space Network advanced systems research into ionospheric calibration ...