Add to ORKGTropical countries like Singapore experience high rainfall rate all year round. As such it is essential to ensure that satellite links are kept reliable under these adverse conditions. Effects due to rain can greatly degrade the signal and link performance, especially under heavy rainfall condition. This project aims to study the effects of rain on satellite communication links. Prior to analysis of rain attenuation, other effects affecting the signal quality had to be removed. One of the effects to be considered was scintillation. Another key aspect to be considered was the Low-noise Block downconverter (LNB) gain variation. Effects of rainfall and temperature attenuation on the signal were also analysed. This analysis was performed...
Spectrum congestion in frequencies below 10 GHz is pushing satellite network operators to migrate to...
The fast growth in communication systems has resulted congestion in lower frequency bands and microw...
Rain is the main contributor towards signal attenuation for satellites operating above 3 GHz, and it...
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...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
Satellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal ...
Satellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal ...
Rainfall causes the absorption and scattering to microwave signals results in severe degradation of ...
Rain Attenuation can cause significant degradation of signal strength in satellite communication lin...
This work surveys the atmospheric impairments that affect a satellite link operating in a high-frequ...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Attenuation of radio frequency signal by clouds, snow and in particular, rains have to be considered...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Spectrum congestion in frequencies below 10 GHz is pushing satellite network operators to migrate to...
The fast growth in communication systems has resulted congestion in lower frequency bands and microw...
Rain is the main contributor towards signal attenuation for satellites operating above 3 GHz, and it...
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...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
Satellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal ...
Satellite links operating at frequencies above 10GHz in the tropics typically suffer severe signal ...
Rainfall causes the absorption and scattering to microwave signals results in severe degradation of ...
Rain Attenuation can cause significant degradation of signal strength in satellite communication lin...
This work surveys the atmospheric impairments that affect a satellite link operating in a high-frequ...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Attenuation of radio frequency signal by clouds, snow and in particular, rains have to be considered...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Spectrum congestion in frequencies below 10 GHz is pushing satellite network operators to migrate to...
The fast growth in communication systems has resulted congestion in lower frequency bands and microw...
Rain is the main contributor towards signal attenuation for satellites operating above 3 GHz, and it...