On the Use of Multiple Satellites to Improve the Spectral Efficiency of Broadcast Transmissions

Abstract: We consider the use of multiple co-located satellites to improve the spectral efficiency of broadcast transmissions. In particular, we assume that two satellites transmit on overlapping geographical coverage areas, with overlapping frequencies. We first describe the theoretical framework based on network information theory and, in particular, on the theory for multiple access channels. The application to different scenarios will be then considered, including the bandlimited additive white Gaussian noise channe… Show more

“…When it comes to non-terrestrial networks, authors in [13] and [14], [15] employed the STBC technique in their analytical frameworks for SATCOM systems and hybrid satellite-terrestrial networks (HSTNs), respectively, while employing heterogeneous fading channel models. Moreover, the authors in [16] discussed the STBC scheme, in particular, Almouti STBC, which deals with time misalignment in the two satellite transmitters while assuming perfect knowledge of the timing offset at the receiver.…”

Diversity Combining Scheme for Time-Varying STBC NGSO Multi-Satellite Systems

“…When it comes to non-terrestrial networks, authors in [13] and [14], [15] employed the STBC technique in their analytical frameworks for SATCOM systems and hybrid satellite-terrestrial networks (HSTNs), respectively, while employing heterogeneous fading channel models. Moreover, the authors in [16] discussed the STBC scheme, in particular, Almouti STBC, which deals with time misalignment in the two satellite transmitters while assuming perfect knowledge of the timing offset at the receiver.…”

Diversity Combining Scheme for Time-Varying STBC NGSO Multi-Satellite Systems

Advanced transceiver schemes for next generation high rate telemetry

Spectrum Reconstruction via Deep Convolutional Neural Networks for Satellite Communication Systems