Add to ORKGSince September 2012, NASA Glenn Research Center has deployed a microwave profiling radiometer at White Sands, NM, to estimate atmospheric propagation effects on communications links in the V and W bands (71-86GHz). Estimates of attenuation statistics in the millimeter wave due to gaseous and cloud components of the atmosphere show good agreement with current ITU-R models, but fail to predict link performance in the presence of moderate to heavy rain rates, due to the inherent limitations of passive radiometry. Herein, we discuss the preliminary results of these measurements and describe a design for a terrestrial link experiment to validate/refine existing rain attenuation models in the V/Wbands
An investigation into the use of Weather Cubes compiled by the atmospheric characterization package,...
Propagation measurement campaigns are critical to characterizing the atmospheric behavior of a locat...
The statistical variability of the secondary atmospheric propagation effects on satellite communicat...
Interest in the W & V-bands of the radio frequency (RF) spectrum has become steadily more desirable ...
The V and W-bands are becoming of interest to satellite designers due to the large availability of b...
The wireless communication sector is rapidly approaching network capacities as a direct result of in...
A single model for a standard of comparison for other models when dealing with rain attenuation prob...
Long term experimental measurements to determine the propagation characteristics of 15 and 32 GHz ea...
Since October 2015, NASA Glenn Research Center (GRC) and the Air Force Research Laboratory (AFRL) ha...
Radio communications, and in particular Earth-to-satellite links, are worldwide used for deliv...
The effects of the scattering troposphere on propagating signals are important for sever...
The design of an experiment to measure communication characteristics of wideband satellite-to-ground...
Communication channels between the Earth and satellites are in the on-going process to be scaled up ...
The investigations conducted for the Millimeter Wavelength Propagation Studies during the period Dec...
Atmospheric propagation models and the measurements that train them are critical to the design of ef...
An investigation into the use of Weather Cubes compiled by the atmospheric characterization package,...
Propagation measurement campaigns are critical to characterizing the atmospheric behavior of a locat...
The statistical variability of the secondary atmospheric propagation effects on satellite communicat...
Interest in the W & V-bands of the radio frequency (RF) spectrum has become steadily more desirable ...
The V and W-bands are becoming of interest to satellite designers due to the large availability of b...
The wireless communication sector is rapidly approaching network capacities as a direct result of in...
A single model for a standard of comparison for other models when dealing with rain attenuation prob...
Long term experimental measurements to determine the propagation characteristics of 15 and 32 GHz ea...
Since October 2015, NASA Glenn Research Center (GRC) and the Air Force Research Laboratory (AFRL) ha...
Radio communications, and in particular Earth-to-satellite links, are worldwide used for deliv...
The effects of the scattering troposphere on propagating signals are important for sever...
The design of an experiment to measure communication characteristics of wideband satellite-to-ground...
Communication channels between the Earth and satellites are in the on-going process to be scaled up ...
The investigations conducted for the Millimeter Wavelength Propagation Studies during the period Dec...
Atmospheric propagation models and the measurements that train them are critical to the design of ef...
An investigation into the use of Weather Cubes compiled by the atmospheric characterization package,...
Propagation measurement campaigns are critical to characterizing the atmospheric behavior of a locat...
The statistical variability of the secondary atmospheric propagation effects on satellite communicat...