Cognitive Radio-Oriented Wireless Networks. 14th EAI International Conference, CrownCom 2019, Poznan, Poland, June 11–12, 2019, Proceedings

Research Article

On the Feasibility of a Secondary Service Transmission over an Existent Satellite Infrastructure

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  • @INPROCEEDINGS{10.1007/978-3-030-25748-4_12,
        author={Luciano Silva and Tarik Benaddi and Laurent Franck},
        title={On the Feasibility of a Secondary Service Transmission over an Existent Satellite Infrastructure},
        proceedings={Cognitive Radio-Oriented Wireless Networks. 14th EAI International Conference, CrownCom 2019, Poznan, Poland, June 11--12, 2019, Proceedings},
        proceedings_a={CROWNCOM},
        year={2019},
        month={8},
        keywords={Satellite communications Cognitive radio Overlay paradigm Dirty paper coding Machine-to-Machine application},
        doi={10.1007/978-3-030-25748-4_12}
    }
    
  • Luciano Silva
    Tarik Benaddi
    Laurent Franck
    Year: 2019
    On the Feasibility of a Secondary Service Transmission over an Existent Satellite Infrastructure
    CROWNCOM
    Springer
    DOI: 10.1007/978-3-030-25748-4_12
Luciano Silva1,*, Tarik Benaddi2,*, Laurent Franck3,*
  • 1: IMT Atlantique, LabSTICC
  • 2: IMT Atlantique, LabSTICC, DEOS
  • 3: Airbus Defence and Space
*Contact email: luciano.barroscardosodasilva@imt-atlantique.fr, tarik.benaddi@imt-atlantique.fr, laurent.franck@airbus.com

Abstract

In this paper, we present a realistic use case in order to investigate the feasibility of a secondary service transmission over an existent satellite infrastructure. By introducing the overlay cognitive radio paradigm towards satellite communications, we compute a theoretical achievable data rate greater than 16 kbps for the secondary service, which is suitable for most M2M applications. Using simulation results, we show that this can be achieved while preserving the primary service performance. In addition, a system design framework is discussed in order to dimension such systems.