Add to ORKGSatellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal degradation due to rain. The study attempts to investigate the impacts of rain on the performance of satellite-Earth links at V-band frequency. Attenuation due to rain at 38GHz had been measured for a period of 20 months in Malaysia. Studies are being conducted to quantify the rain-induced degradations. Preliminary analyses include seasonal variations and the annual cumulative distributions. Obtained results are compared with several prediction models including the ITU-R
The radio waves propagating through the earth atmosphere will be attenuated due to the presence of a...
The radio waves propagates through the earth atmosphere will be attenuated due to presence of the at...
By increasing number of commercial applications are being promoted for future satellites broadband s...
Satellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal ...
Satellite communications operating at 10 GHz and above in the tropics suffer severe signal degradati...
The campaign to collect rain attenuation data on terrestrial links had commenced in Malaysian tropic...
Radio wave propagation plays a very important part in the design and eventually dictates performance...
Rain is a major source of attenuation for microwave propagation above 10 GHz. In tropical and equato...
Rain induced attenuation is the main reason for the decrease of Space-Earth communication links’ re...
Radio wave propagation plays a very important part in the design and eventually dictates performance...
Rain induced attenuation is the main reason for the decrease of Space-Earth communication links’ re...
Rainfall causes the absorption and scattering to microwave signals results in severe degradation of ...
Radiowave propagation plays a very important part in the design and eventually dictates performance ...
The radio waves propagating through the earth atmosphere will be attenuated due to the presence of a...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
The radio waves propagating through the earth atmosphere will be attenuated due to the presence of a...
The radio waves propagates through the earth atmosphere will be attenuated due to presence of the at...
By increasing number of commercial applications are being promoted for future satellites broadband s...
Satellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal ...
Satellite communications operating at 10 GHz and above in the tropics suffer severe signal degradati...
The campaign to collect rain attenuation data on terrestrial links had commenced in Malaysian tropic...
Radio wave propagation plays a very important part in the design and eventually dictates performance...
Rain is a major source of attenuation for microwave propagation above 10 GHz. In tropical and equato...
Rain induced attenuation is the main reason for the decrease of Space-Earth communication links’ re...
Radio wave propagation plays a very important part in the design and eventually dictates performance...
Rain induced attenuation is the main reason for the decrease of Space-Earth communication links’ re...
Rainfall causes the absorption and scattering to microwave signals results in severe degradation of ...
Radiowave propagation plays a very important part in the design and eventually dictates performance ...
The radio waves propagating through the earth atmosphere will be attenuated due to the presence of a...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
The radio waves propagating through the earth atmosphere will be attenuated due to the presence of a...
The radio waves propagates through the earth atmosphere will be attenuated due to presence of the at...
By increasing number of commercial applications are being promoted for future satellites broadband s...