Add to ORKGThis work surveys the atmospheric impairments that affect a satellite link operating in a high-frequency band, such as Ka and Q/V bands, particularly in heavy rain regions. The impacts of hydrometeors and cloud attenuation are emphasised and discussed along with the contribution of gases and scintillation to signal fade. Also, propagation impairment mitigation techniques are reviewed from the perspective of satellite operators in heavy rain areas
Satellite communication links at a frequency above 10 GHz experience severe attenuation due to rain,...
This paper is a brief review of Rain AttenuationModelling and Mitigation in the Tropics. The fast de...
AbstractAs the shortage of the radio spectrum infers challenges in the Earth–Space Communication Lin...
This work surveys the atmospheric impairments that affect a satellite link operating in a high-frequ...
Tropical countries like Singapore experience high rainfall rate all year round. As such it is essent...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Tropical countries like Singapore experience high rainfall rate all year round. As such it is essent...
Satellite communications operating at 10 GHz and above in the tropics suffer severe signal degradati...
This paper presents the effects of atmospheric attenuations on C, Ku and Ka microwave frequency band...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
Modern satellite communication system in higher frequency (Ka-band and above) is very much impaired ...
Attenuation due to rain predictive models have been used to calculate the impact of rainfall on sat...
A higher frequency radio channel both increase the possible data rate and de- crease the required an...
Spectrum congestion in frequencies below 10 GHz is pushing satellite network operators to migrate to...
The impairment of radio signal at Ku band and above by rain is a key factor in satellite communicat...
Satellite communication links at a frequency above 10 GHz experience severe attenuation due to rain,...
This paper is a brief review of Rain AttenuationModelling and Mitigation in the Tropics. The fast de...
AbstractAs the shortage of the radio spectrum infers challenges in the Earth–Space Communication Lin...
This work surveys the atmospheric impairments that affect a satellite link operating in a high-frequ...
Tropical countries like Singapore experience high rainfall rate all year round. As such it is essent...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Tropical countries like Singapore experience high rainfall rate all year round. As such it is essent...
Satellite communications operating at 10 GHz and above in the tropics suffer severe signal degradati...
This paper presents the effects of atmospheric attenuations on C, Ku and Ka microwave frequency band...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
Modern satellite communication system in higher frequency (Ka-band and above) is very much impaired ...
Attenuation due to rain predictive models have been used to calculate the impact of rainfall on sat...
A higher frequency radio channel both increase the possible data rate and de- crease the required an...
Spectrum congestion in frequencies below 10 GHz is pushing satellite network operators to migrate to...
The impairment of radio signal at Ku band and above by rain is a key factor in satellite communicat...
Satellite communication links at a frequency above 10 GHz experience severe attenuation due to rain,...
This paper is a brief review of Rain AttenuationModelling and Mitigation in the Tropics. The fast de...
AbstractAs the shortage of the radio spectrum infers challenges in the Earth–Space Communication Lin...