Add to ORKGThis study is a preliminary analysis of the accuracy of various ionosphere models to correct single frequency altimeter height measurements for Ionospheric path delay. In particular, research focused on adjusting empirical and parameterized ionosphere models in the parameterized real-time ionospheric specification model (PRISM) 1.2 using total electron content (TEC) data from the global positioning system (GPS). The types of GPS data used to adjust PRISM included GPS line-of-sight (LOS) TEC data mapped to the vertical, and a grid of GPS derived TEC data in a sun-fixed longitude frame. The adjusted PRISM TEC values, as well as predictions by IRI-90, a climatotogical model, were compared to TOPEX/Poseidon (T/P) TEC measurements from the dual-...
Modelling of the ionospheric Total Electron Content (TEC) represents a challenging and demanding tas...
AbstractThe global positioning system (GPS) has been used to support a wide variety of applications,...
Uncorrected ionospheric delay is one of the factors limiting the accuracy in geodetic relative posit...
This study is a preliminary analysis of the effectiveness (in terms of altimeter calibration accurac...
This paper presents an innovative method to mitigate ionosphere delay error for single frequency rec...
An algorithm is presented which uses observations of Global Positioning System (GPS) signals reflect...
Abstract Single-frequency Global Positioning System (GPS) receivers do not accurately compensate for...
Several spaceborne altimeters have been built and flown, and others are being developed to provide m...
The majority of navigation satellite receivers operate on a single frequency and experience an error...
This paper describes an ionospheric correction technique for single frequency GPS measurements from ...
In Global Navigation Satellite Systems (GNSS) using L band frequencies, the ionosphere causes signal...
. We compare TEC measurements from the NASA Radar Altimeter and DORIS instrument on board TOPEX/POSE...
The ionosphere cun be the greatest variable source of error in precke time trander using GPS satel-l...
Abstract:- GPS receivers have been profitably employed by researchers for investigations into ionosp...
The theoretical basis and avaliable accuracy verifications were reviewed and compared for ionospheri...
Modelling of the ionospheric Total Electron Content (TEC) represents a challenging and demanding tas...
AbstractThe global positioning system (GPS) has been used to support a wide variety of applications,...
Uncorrected ionospheric delay is one of the factors limiting the accuracy in geodetic relative posit...
This study is a preliminary analysis of the effectiveness (in terms of altimeter calibration accurac...
This paper presents an innovative method to mitigate ionosphere delay error for single frequency rec...
An algorithm is presented which uses observations of Global Positioning System (GPS) signals reflect...
Abstract Single-frequency Global Positioning System (GPS) receivers do not accurately compensate for...
Several spaceborne altimeters have been built and flown, and others are being developed to provide m...
The majority of navigation satellite receivers operate on a single frequency and experience an error...
This paper describes an ionospheric correction technique for single frequency GPS measurements from ...
In Global Navigation Satellite Systems (GNSS) using L band frequencies, the ionosphere causes signal...
. We compare TEC measurements from the NASA Radar Altimeter and DORIS instrument on board TOPEX/POSE...
The ionosphere cun be the greatest variable source of error in precke time trander using GPS satel-l...
Abstract:- GPS receivers have been profitably employed by researchers for investigations into ionosp...
The theoretical basis and avaliable accuracy verifications were reviewed and compared for ionospheri...
Modelling of the ionospheric Total Electron Content (TEC) represents a challenging and demanding tas...
AbstractThe global positioning system (GPS) has been used to support a wide variety of applications,...
Uncorrected ionospheric delay is one of the factors limiting the accuracy in geodetic relative posit...