Abstract Single-frequency Global Positioning System (GPS) receivers do not accurately compensate for the ionospheric delay imposed upon a GPS signal. They rely upon models to compensate for the ionosphere. This delay compensation can be improved by measuring it directly with a dual-frequency receiver, or by monitoring the ionosphere using real-time maps. This investigation uses a 4D tomographic algorithm, Multi Instrument Data Analysis System (MIDAS), to correct for the ionospheric delay and compares the results to existing single and dualfrequency techniques. Maps of the ionospheric electron density, across Europe, are produced by using data collected from a fixed network of dual-frequency GPS receivers. Single-frequency pseudorange observ...
GPS-transmitted waves are affected by the Earth's atmosphere resulting in a decrease of the measured...
This study is a preliminary analysis of the effectiveness (in terms of altimeter calibration accurac...
Modelling of the ionospheric Total Electron Content (TEC) represents a challenging and demanding tas...
The majority of navigation satellite receivers operate on a single frequency and experience an error...
AbstractThe global positioning system (GPS) has been used to support a wide variety of applications,...
We intend to present results of a study where precise ionospheric corrections have been generated an...
This paper presents an innovative method to mitigate ionosphere delay error for single frequency rec...
Global Positioning System (GPS) satellite receivers provide a world-wide network of phase and group ...
Accurate weather forecasting plays an important role in predicting precipitation events. With the wa...
Single-frequency Global Positioning System (GPS) receivers do not accurately compensate for the iono...
This study is a preliminary analysis of the accuracy of various ionosphere models to correct single ...
The Global Navigation Satellite System (GNSS) is a space-based radio positioning system that include...
Single frequency users of the Global Navigation Satellite System (GNSS) should correct the ionospher...
The global positioning system (GPS) has been used to support a wide variety of applications, such as...
A proposed navigation concept requires that a user measure the time-delay that satellite-emitted sig...
GPS-transmitted waves are affected by the Earth's atmosphere resulting in a decrease of the measured...
This study is a preliminary analysis of the effectiveness (in terms of altimeter calibration accurac...
Modelling of the ionospheric Total Electron Content (TEC) represents a challenging and demanding tas...
The majority of navigation satellite receivers operate on a single frequency and experience an error...
AbstractThe global positioning system (GPS) has been used to support a wide variety of applications,...
We intend to present results of a study where precise ionospheric corrections have been generated an...
This paper presents an innovative method to mitigate ionosphere delay error for single frequency rec...
Global Positioning System (GPS) satellite receivers provide a world-wide network of phase and group ...
Accurate weather forecasting plays an important role in predicting precipitation events. With the wa...
Single-frequency Global Positioning System (GPS) receivers do not accurately compensate for the iono...
This study is a preliminary analysis of the accuracy of various ionosphere models to correct single ...
The Global Navigation Satellite System (GNSS) is a space-based radio positioning system that include...
Single frequency users of the Global Navigation Satellite System (GNSS) should correct the ionospher...
The global positioning system (GPS) has been used to support a wide variety of applications, such as...
A proposed navigation concept requires that a user measure the time-delay that satellite-emitted sig...
GPS-transmitted waves are affected by the Earth's atmosphere resulting in a decrease of the measured...
This study is a preliminary analysis of the effectiveness (in terms of altimeter calibration accurac...
Modelling of the ionospheric Total Electron Content (TEC) represents a challenging and demanding tas...