Satellite communication systems operating at high frequencies (Ka-band and above) are severely impaired by atmospheric phenomena, particularly in tropical and equatorial regions, where the climatic characteristics affect several propagation parameters, including rain, cloud and gaseous attenuation, fade duration, fade slope, sky noise emission and site diversity gain. With the support of the Austrian Research Promotion Agency, a Ka-band propagation measurement campaign is being carried out in two sites in Malaysia. The main objectives of this campaign are to improve the characterization of the radio channel modelling and ground system requirements for the development of Ka-band SatCom systems covering tropical regions, assess the accuracy o...
This work investigates fade dynamics of satellite communication systems in equatorial heavy rain reg...
This work investigates fade dynamics of satellite communication systems in equatorial heavy rain reg...
Radio waves propagate through the earth's atmosphere will be attenuated due to presence of the atmos...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...
Reliability of satellite-Earth communication links can be improved by ensuring the availability of a...
Recent advances in satellite communication technologies in the tropical regions have led to signific...
Future satellite communication systems are moving towards high operational frequencies, typically in...
42-47A Ka-Band signal propagation study under tropical monsoon climate has been taken up jointly by ...
Recent advances in satellite communication technologies in the tropical regions have led to signific...
By increasing number of commercial applications are being promoted for future satellites broadband s...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
Modern satellite communication system in higher frequency (Ka-band and above) is very much impaired ...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
Satellite communication links at a frequency above 10 GHz experience severe attenuation due to rain,...
Rain Attenuation can cause significant degradation of signal strength in satellite communication lin...
This work investigates fade dynamics of satellite communication systems in equatorial heavy rain reg...
This work investigates fade dynamics of satellite communication systems in equatorial heavy rain reg...
Radio waves propagate through the earth's atmosphere will be attenuated due to presence of the atmos...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...
Reliability of satellite-Earth communication links can be improved by ensuring the availability of a...
Recent advances in satellite communication technologies in the tropical regions have led to signific...
Future satellite communication systems are moving towards high operational frequencies, typically in...
42-47A Ka-Band signal propagation study under tropical monsoon climate has been taken up jointly by ...
Recent advances in satellite communication technologies in the tropical regions have led to signific...
By increasing number of commercial applications are being promoted for future satellites broadband s...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
Modern satellite communication system in higher frequency (Ka-band and above) is very much impaired ...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
Satellite communication links at a frequency above 10 GHz experience severe attenuation due to rain,...
Rain Attenuation can cause significant degradation of signal strength in satellite communication lin...
This work investigates fade dynamics of satellite communication systems in equatorial heavy rain reg...
This work investigates fade dynamics of satellite communication systems in equatorial heavy rain reg...
Radio waves propagate through the earth's atmosphere will be attenuated due to presence of the atmos...