Add to ORKG42-47A Ka-Band signal propagation study under tropical monsoon climate has been taken up jointly by ISRO/ONERA/CNES. The program has been aimed at finding the degree to which Ka-Band satellite signals get affected by rain. Dual polarized Ka Band beacon signals onboard GSAT-14 satellite, of frequencies 20.2 GHz and 30.5 GHz, have been used for the experiment. Data available by various instruments has been compared with ITU-R predicted values. Results for the years 2016 and 2017 at Umiam has shown underestimation of both Rainfall and Signal Attenuation by ITU-R predicted models. It has also been found that the Rainfall has been mostly concentrated in three months (June, July, August) and the maximum attenuation that Ka-Band signals have suffe...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Due to the lack of reliable analysis in Malaysia as tropical region, this study presents an analysis...
The weather conditions formed in troposphere causes the greatest signal attenuation in satellite co...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
45-50Quantitative analysis and prediction of radio signal attenuation is necessary in order to impr...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...
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,...
The tremendous worldwide growth in the use of Internet and multimedia services prompted the ambitiou...
By increasing number of commercial applications are being promoted for future satellites broadband s...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
Satellite communication systems operating at high frequencies (Ka-band and above) are severely impai...
Attenuation due to rain predictive models have been used to calculate the impact of rainfall on sat...
Future satellite communication systems are moving towards high operational frequencies, typically in...
Ku-band have a larger attenuation during heavy rain in the equatorial region. Despite that, Ku-band ...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Due to the lack of reliable analysis in Malaysia as tropical region, this study presents an analysis...
The weather conditions formed in troposphere causes the greatest signal attenuation in satellite co...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
45-50Quantitative analysis and prediction of radio signal attenuation is necessary in order to impr...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...
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,...
The tremendous worldwide growth in the use of Internet and multimedia services prompted the ambitiou...
By increasing number of commercial applications are being promoted for future satellites broadband s...
Attenuation due to rain is a major concern in transmission of microwave signals. The effect of rain ...
Satellite communication systems operating at high frequencies (Ka-band and above) are severely impai...
Attenuation due to rain predictive models have been used to calculate the impact of rainfall on sat...
Future satellite communication systems are moving towards high operational frequencies, typically in...
Ku-band have a larger attenuation during heavy rain in the equatorial region. Despite that, Ku-band ...
Rain attenuation is a major challenge to microwave satellite communication especially at frequencies...
Due to the lack of reliable analysis in Malaysia as tropical region, this study presents an analysis...
The weather conditions formed in troposphere causes the greatest signal attenuation in satellite co...