• DocumentCode
    107117
  • Title

    Multiple Gateway Transmit Diversity in Q/V Band Feeder Links

  • Author

    Gharanjik, Ahmad ; Shankar, Bhavani ; Arapoglou, Pantelis-Daniel ; Ottersten, Bjorn

  • Author_Institution
    Interdiscipl. Centre for Security, Univ. of Luxembourg, Luxembourg, Luxembourg
  • Volume
    63
  • Issue
    3
  • fYear
    2015
  • fDate
    Mar-15
  • Firstpage
    916
  • Lastpage
    926
  • Abstract
    Design of high bandwidth and reliable feeder links are central toward provisioning new services on the user link of a multibeam satellite communication system. Toward this, utilization of the Q/V band and an exploitation of multiple gateways (GWs) as a transmit diversity measure for overcoming severe propagation effects are being considered. In this context, this contribution deals with the design of a feeder link comprising N+P GWs (N active and P redundant GWs). Toward provisioning the desired availability, a novel switching scheme is analyzed and practical aspects such as prediction-based switching and switching rate are discussed. Unlike most relevant works, a dynamic rain attenuation model is used to analytically derive average outage probability in the fundamental 1 + 1 GW case. Building on this result, an analysis for the N+P scenario leading to a quantification of the end-to-end performance is provided. This analysis aids system sizing by illustrating the interplay between the number of active and redundant GWs on the chosen metrics: average outage and average switching rate.
  • Keywords
    electromagnetic wave attenuation; probability; satellite communication; Q/V band feeder links; attenuation model; average outage probability; multibeam satellite communication system; multiple gateway transmit diversity; prediction-based switching; reliable feeder links; Attenuation; Correlation; Logic gates; Rain; Satellites; Signal to noise ratio; Switches; $N+P$ scheme; Feeder Link; Gateway Diversity; Gateway diversity; N +P scheme; Q/V Band; Q/V band; Rain Attenuation; Satellite Communication; feeder link; rain attenuation; satellite communication;
  • fLanguage
    English
  • Journal_Title
    Communications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0090-6778
  • Type

    jour

  • DOI
    10.1109/TCOMM.2014.2385703
  • Filename
    6995937