Add to ORKGElectromagnetic signals are attenuated by atmospheric gases is a phenomenon that has attracted the attention of many researchers for years now. The effect of gaseous attenuation is especially significant at frequencies from 10 GHz and above. This work investigates hourly gaseous attenuation from 10 to 50 GHz frequency range. The hourly and diurnal impact of gaseous attenuation at Ku, Ka and V bands frequency in 2013 at Covenant University ota southwest Nigeria a tropical station has been investigated. One minute integrated time atmospheric data such as pressure, temperature and relative humidity were obtained for the location from January to December 2013 as input data to the International Telecommunications Union (ITU-676-) gaseous...
Radio signals could be attenuated by different atmospheric parameters. The magnitude at which the ra...
signals being attenuated by rain, cloud, gas and tropospheric scintillation. This paper present the...
This paper presents the effects of atmospheric attenuations on C, Ku and Ka microwave frequency band...
Electromagnetic signals are attenuated by atmospheric gases is a phenomenon that has attracted the ...
The total atmospheric absorption due to Oxygen and water vapour on the earth-space path at Ku (12/1...
The total atmospheric absorption due to Oxygen and water vapour on the earth-space path at Ku (12/14...
Oxygen and Water Vapour are the principal absorbers of transmitted radio signals in the troposphere....
Atmospheric gases such as Oxygen and water vapour attenuation has become a major concern on earth-s...
Atmospheric gases variations were evaluated to have major effect on Ku-band and above at 0.01 % unav...
The demand for satellite services is rapidly increasing on a daily basis. One of the major concern ...
It would be noticed that the rate at which people are demanding for satellite services has drastical...
Total atmospheric absorption values due to oxygen and water vapor on terrestrial and Earth-space pat...
Propagation effects due to atmospheric gases and tropospheric scintillation requires accurate modell...
Propagation effects due to atmospheric gases and tropospheric scintillation requires accurate model...
The paper present four year results of Cloud attenuation measurements carried out at Covenant Unive...
Radio signals could be attenuated by different atmospheric parameters. The magnitude at which the ra...
signals being attenuated by rain, cloud, gas and tropospheric scintillation. This paper present the...
This paper presents the effects of atmospheric attenuations on C, Ku and Ka microwave frequency band...
Electromagnetic signals are attenuated by atmospheric gases is a phenomenon that has attracted the ...
The total atmospheric absorption due to Oxygen and water vapour on the earth-space path at Ku (12/1...
The total atmospheric absorption due to Oxygen and water vapour on the earth-space path at Ku (12/14...
Oxygen and Water Vapour are the principal absorbers of transmitted radio signals in the troposphere....
Atmospheric gases such as Oxygen and water vapour attenuation has become a major concern on earth-s...
Atmospheric gases variations were evaluated to have major effect on Ku-band and above at 0.01 % unav...
The demand for satellite services is rapidly increasing on a daily basis. One of the major concern ...
It would be noticed that the rate at which people are demanding for satellite services has drastical...
Total atmospheric absorption values due to oxygen and water vapor on terrestrial and Earth-space pat...
Propagation effects due to atmospheric gases and tropospheric scintillation requires accurate modell...
Propagation effects due to atmospheric gases and tropospheric scintillation requires accurate model...
The paper present four year results of Cloud attenuation measurements carried out at Covenant Unive...
Radio signals could be attenuated by different atmospheric parameters. The magnitude at which the ra...
signals being attenuated by rain, cloud, gas and tropospheric scintillation. This paper present the...
This paper presents the effects of atmospheric attenuations on C, Ku and Ka microwave frequency band...