The feasibility quantifying atmospheric delay of electromagnetic signals using a mesoscale numerical model (WRF model) is explored. The experiment investigates a new alternative to reduce uncertainty sources in data exploitation for spatial geodesy applications. Our experiment was compared with GPS estimations of stations located in the South-America. The GPS estimations are consistent with values of our proposed methodology. This opens the possibility of using a mesoscale numerical model applied to spatial geodesy. However, these results, despite being promising, need further analysis and research, opening the opportunity to numerical modeling of atmospheric delays using mesoscale models
We have used a ground-based microwave radiometer, known as a water vapor radiometer, to investigate ...
In space geodetic techniques like VLBI and GPS, accuracyis limited by atmospheric propagation effect...
The troposphere is one of the most significant sources of error in precise GPS (Global Positioning S...
The feasibility quantifying atmospheric delay of electromagnetic signals using a mesoscale numerical...
The basic idea of this study is the estimation of Tropospheric delay with all of possible observatio...
Abstract. Atmospheric refractivity is typically estimated in situ from radiosonde measure-ments, whi...
Abstract: In Global Navigation Satellite Systems (GNSS), the effects of neutral atmosphere in electr...
Abstract. Dry air, water vapor, hydrometeors, and other particulates (sand, dust, aerosols, and volc...
Due to development of GPS technology and by using the combination LC of L1 and L2 frequency the firs...
ABSTRACT – The propagation delay induced by the electrically neutral atmosphere, commonly known as t...
If left unmodeled, the delay suffered by electromagnetic waves while crossing the neutral atmosphere...
The total zenith tropospheric delay (ZTD) is an important parameter of the atmo- sphere and directly...
Techniques operated for the realization of the IERS reference systems make use of electromagnetic s...
Very Long Baseline Interferometry (VLBI) is collocated with a permanent Global Positioning System (G...
This report is a summary of some of the tropospheric propagation delay mapping function research per...
We have used a ground-based microwave radiometer, known as a water vapor radiometer, to investigate ...
In space geodetic techniques like VLBI and GPS, accuracyis limited by atmospheric propagation effect...
The troposphere is one of the most significant sources of error in precise GPS (Global Positioning S...
The feasibility quantifying atmospheric delay of electromagnetic signals using a mesoscale numerical...
The basic idea of this study is the estimation of Tropospheric delay with all of possible observatio...
Abstract. Atmospheric refractivity is typically estimated in situ from radiosonde measure-ments, whi...
Abstract: In Global Navigation Satellite Systems (GNSS), the effects of neutral atmosphere in electr...
Abstract. Dry air, water vapor, hydrometeors, and other particulates (sand, dust, aerosols, and volc...
Due to development of GPS technology and by using the combination LC of L1 and L2 frequency the firs...
ABSTRACT – The propagation delay induced by the electrically neutral atmosphere, commonly known as t...
If left unmodeled, the delay suffered by electromagnetic waves while crossing the neutral atmosphere...
The total zenith tropospheric delay (ZTD) is an important parameter of the atmo- sphere and directly...
Techniques operated for the realization of the IERS reference systems make use of electromagnetic s...
Very Long Baseline Interferometry (VLBI) is collocated with a permanent Global Positioning System (G...
This report is a summary of some of the tropospheric propagation delay mapping function research per...
We have used a ground-based microwave radiometer, known as a water vapor radiometer, to investigate ...
In space geodetic techniques like VLBI and GPS, accuracyis limited by atmospheric propagation effect...
The troposphere is one of the most significant sources of error in precise GPS (Global Positioning S...