Site diversity is one of the advanced techniques that aim to mitigate propagation impairments affecting satellite communication (SatCom) systems operating above 10 GHz. In this work, we exploit two years of weather radar data collected at Johor (Malaysia) to simulate a site diversity SatCom system operating at 18.9 GHz with two links pointing to the WINDS satellite (elevation angle equal to 44°). The effectiveness of the dual-link diversity scheme is assessed by calculating the singleand joint-site probability distributions of attenuation, as well as the diversity gain. Both results, calculated as a function of the separation distance, indicate a definite reduction in the rain attenuation affecting the overall communication syste...
Frequency bands well above 10GHz are of primary importance for current and, more importantly, future...
Satellite communication systems operating at high frequencies (Ka-band and above) are severely impai...
The increasing growth of wireless communication systems has caused the usage of higher frequencies i...
Site diversity is one of the advanced techniques that aim to mitigate propagation impairments affec...
Site diversity is one of the advanced techniques that aim to mitigate propagation impairments affect...
Site diversity technique is effective method to overcome rain attenuation, mostly in the tropics whe...
Site diversity technique is effective method to overcome rain attenuation, mostly in the tropics whe...
Time diversity is one of the advanced diversity techniques that aim to mitigate propagation impairme...
Rain is the main contributor towards signal attenuation for satellites operating above 3 GHz, and it...
Rain is the major impairment to the signal propagation from satellite to earth. The signal that brin...
This paper reports a study on mitigation of propagation impairments on Earth–space communication lin...
This paper reports a study on mitigation of propagation impairments on Earth-space communication lin...
The increasing growth of wireless communication systems has caused the usage of higher frequencies i...
Site diversity is an effective rain attenuation mitigation technique, especially in the tropical reg...
Rain is the major challenge to design reliable earth to satellite microwave link at higher frequenci...
Frequency bands well above 10GHz are of primary importance for current and, more importantly, future...
Satellite communication systems operating at high frequencies (Ka-band and above) are severely impai...
The increasing growth of wireless communication systems has caused the usage of higher frequencies i...
Site diversity is one of the advanced techniques that aim to mitigate propagation impairments affec...
Site diversity is one of the advanced techniques that aim to mitigate propagation impairments affect...
Site diversity technique is effective method to overcome rain attenuation, mostly in the tropics whe...
Site diversity technique is effective method to overcome rain attenuation, mostly in the tropics whe...
Time diversity is one of the advanced diversity techniques that aim to mitigate propagation impairme...
Rain is the main contributor towards signal attenuation for satellites operating above 3 GHz, and it...
Rain is the major impairment to the signal propagation from satellite to earth. The signal that brin...
This paper reports a study on mitigation of propagation impairments on Earth–space communication lin...
This paper reports a study on mitigation of propagation impairments on Earth-space communication lin...
The increasing growth of wireless communication systems has caused the usage of higher frequencies i...
Site diversity is an effective rain attenuation mitigation technique, especially in the tropical reg...
Rain is the major challenge to design reliable earth to satellite microwave link at higher frequenci...
Frequency bands well above 10GHz are of primary importance for current and, more importantly, future...
Satellite communication systems operating at high frequencies (Ka-band and above) are severely impai...
The increasing growth of wireless communication systems has caused the usage of higher frequencies i...
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