We assess here the effectiveness of fade mitigation techniques on the user link side of a TLC satellite system by a simulation tool able to generate correlated time series of rain attenuation in multiple sites. A preliminary analysis of two case studies shows that on-board dynamic power allocation coupled with ACM reduces the impact of heavy fades, permits a larger exploitation of efficient MODCODs and equalizes the performance of the user links. However, in the presence of convective cells, co-channel interference can be dominant, hence reducing the benefits of the above techniques.
Assessment of Rain Fade Mitigation Techniques for High Throughput Satellites by a Time Series Synthesizer
R Nebuloni;C Capsoni;L Luini
2015
Abstract
We assess here the effectiveness of fade mitigation techniques on the user link side of a TLC satellite system by a simulation tool able to generate correlated time series of rain attenuation in multiple sites. A preliminary analysis of two case studies shows that on-board dynamic power allocation coupled with ACM reduces the impact of heavy fades, permits a larger exploitation of efficient MODCODs and equalizes the performance of the user links. However, in the presence of convective cells, co-channel interference can be dominant, hence reducing the benefits of the above techniques.File in questo prodotto:
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