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Broadband satellite multimedia

Broadband satellite multimedia

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The broadband satellite multimedia (BSM) architecture standardised by ETSI defines a satellite independent service access point (SI-SAP) interface layer that separates the satellite independent features of the upper layers from the satellite dependant features of the lower layers, and provides a mechanism to carry IP-based protocols over these satellite dependent lower layers. This enables interoperability at the IP layer between satellite systems of different physical and link layers technologies that fully comply with the SI-SAP concept. This study reviews past and current standardisation activities including the BSM quality of service (QoS) architecture, security architecture, network management that have been carried out by the ETSI Technical Committee-Satellite Earth Stations and Systems (TC-SES)/BSM working group and looking into the future to extend current SI-SAP functions that can enhance existing QoS provision and security management capabilities as well as proposing a mobility management architecture that complies with the IEEE 802.21 media independent handover framework to support BSM mobility and to allow integration of satellite networks with fixed and mobile network infrastructures. A service-based network management architecture is also proposed to allow management flexibility and integration of business and operation support functions, paving the way for satellite integration into the Internet of the future.

References

    1. 1)
      • Hu, Y.F., Pillai, P., Berioli, M.: `Mobility extension for BSM', Int. Workshop on Satellite and Space Communications 2009 (IWSSC 2009), September 2009, Sienna, Italy.
    2. 2)
      • Hu, Y.F., Chan, P.M.L.: `Mobility management for BSM', Int. Workshop on Satellite and Space Communications 2008 (IWSSC 2008), ISAE, October 2008, Toulouse, France.
    3. 3)
      • SatLab: ‘SatLab system recommendations v2 QoS’, http://satlabs.org/, accessed November 2006.
    4. 4)
      • ETSI EN301 790 V1.4.1: ‘Digital video broadcasting (DVB); DVB specification for data broadcasting. Interaction channel for satellite distribution systems’, 2005–09.
    5. 5)
      • Giambene, G., Hadzic, S.: `A cross-layer PEP for DVB-RCS networks', Proc. First Int. Conf. on Personal Satellite Services 2009 (PSATS2009), March 2009, Rome, Italy, p. 18–19.
    6. 6)
      • P. Chini , G. Giambene , D. Bartolini , M. Luglio , C. Roseti . Dynamic resource allocation based on a TCP-MAC cross-layer approach for DVB-RCS satellite networks. Int. J. Sat. Commun. Netw. , 367 - 385
    7. 7)
      • ETSI TS 102 462: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); QoS functional architecture’.
    8. 8)
      • Dovrolis, C., Ramanathan, P., Moore, D.: `What do packet dispersion techniques measure?', Proc. IEEE INFOCOM, April 2001, p. 905–914.
    9. 9)
      • ETSI TS 102 464: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); Interworking with DiffServ QoS’.
    10. 10)
      • G. Giambene , S. Kota . Cross-layer protocol optimization for satellite communications networks: a survey. Int. J. Sat. Commun. Netw. , 323 - 341
    11. 11)
      • ETSI TS 102 463: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); Interworking with IntServ QoS’.
    12. 12)
      • Rigney, C., Allan, C., Rubens, A.C., Simpson, W.A., Willens, S.: `Remote authentication for dial in user service (RADIUS)', IETF RFC2 865, June 2000.
    13. 13)
      • Pat, R., Calhoun, P.R., Loughney, J., Arkko, J., Guttman, E., Zorn, G.: `Diameter base protocol', IETF RFC 3588, December 2002.
    14. 14)
      • ETSI TS 102 465 v1.1.1: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); General security architecture’, 2006.
    15. 15)
      • C. Caini , R. Firrincieli , D. Lacamera . PEPsal: a performance enhancing proxy for TCP satellite connections. IEEE A&E Syst. Mag. , 8 , B - 9
    16. 16)
      • IEEE Std802.21 Part 21: ‘Media independent handover services’, 2009.
    17. 17)
      • ETSI TS 102 672: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); Management functional architecture’, 2009.
    18. 18)
      • ETSI TS 102 357: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); Common air interface specification; Satellite independent service access point SI SAP’.
    19. 19)
      • ETSI TR 102 287 v1.1.1: ‘Satellite earth stations and systems (SES); Broadband satellite multimedia (BSM); IP interworking over satellite; security aspects’, 2004.
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