Add to ORKGThis paper describes the design and performance of a Ka-Band beacon receiver developed at NASA Glenn Research Center (GRC) that will be installed alongside an existing Ka-Band Radiometer [2] located at the east end of the Svalbard Near Earth Network (NEN) complex. The goal of this experiment is to characterize rain fade attenuation to improve the performance of existing statistical rain attenuation models. The ground terminal developed by NASA GRC utilizes an FFT-based frequency estimation [3] receiver capable of characterizing total path attenuation effects due to gaseous absorption, clouds, rain, and scintillation by directly measuring the propagated signal from the satellite Thor 7
An effective means of reducing Ka-band propagation loss is the use of high elevation angle paths, i....
Since September 2012, NASA Glenn Research Center has deployed a microwave profiling radiometer at Wh...
The success or failure of the ACTS experiment will depend on how accurately the rain-fade statistics...
This paper describes the design and performance of a Ka-Band beacon receiver developed at NASA Glenn...
International audienceSince April 1, 2016, a Ka-band (20.198 GHz) propagation terminal has been inst...
Over the next several years, NASA plans to launch several earth science missions which are expected ...
This paper describes the design and performance of a coherent KQ-band (2040 GHz) beacon receiver dev...
NASA Glenn Research Center (GRC) and the Politecnico di Milano (POLIMI) have initiated a joint propa...
This paper describes the design and performance of a coherent K/Q-band (20/40GHz) beacon receiver de...
NASA Glenn Research Center (GRC) and the Politecnico di Milano (POLIMI) have initiated a joint propa...
This slide presentation discusses the placement of a Ka-band RF Propagation Terminal at Svalbard, No...
International audienceA propagation experiment funded by ESA with support from CNES has been deploye...
Atmospheric impairments are a major obstacle in satellite communications at Ka-band in high latitude...
42-47A Ka-Band signal propagation study under tropical monsoon climate has been taken up jointly by ...
Atmospheric impairments are a major obstacle in satellite communications at Ka-band in high latitude...
An effective means of reducing Ka-band propagation loss is the use of high elevation angle paths, i....
Since September 2012, NASA Glenn Research Center has deployed a microwave profiling radiometer at Wh...
The success or failure of the ACTS experiment will depend on how accurately the rain-fade statistics...
This paper describes the design and performance of a Ka-Band beacon receiver developed at NASA Glenn...
International audienceSince April 1, 2016, a Ka-band (20.198 GHz) propagation terminal has been inst...
Over the next several years, NASA plans to launch several earth science missions which are expected ...
This paper describes the design and performance of a coherent KQ-band (2040 GHz) beacon receiver dev...
NASA Glenn Research Center (GRC) and the Politecnico di Milano (POLIMI) have initiated a joint propa...
This paper describes the design and performance of a coherent K/Q-band (20/40GHz) beacon receiver de...
NASA Glenn Research Center (GRC) and the Politecnico di Milano (POLIMI) have initiated a joint propa...
This slide presentation discusses the placement of a Ka-band RF Propagation Terminal at Svalbard, No...
International audienceA propagation experiment funded by ESA with support from CNES has been deploye...
Atmospheric impairments are a major obstacle in satellite communications at Ka-band in high latitude...
42-47A Ka-Band signal propagation study under tropical monsoon climate has been taken up jointly by ...
Atmospheric impairments are a major obstacle in satellite communications at Ka-band in high latitude...
An effective means of reducing Ka-band propagation loss is the use of high elevation angle paths, i....
Since September 2012, NASA Glenn Research Center has deployed a microwave profiling radiometer at Wh...
The success or failure of the ACTS experiment will depend on how accurately the rain-fade statistics...