Evolution of satellite communications: Integration of ETSI BSM and DVB-RCS for future satellite terminals (original) (raw)

2015, International Journal of Satellite Communications and Networking

The main added value of the European Telecommunications Standards Institute broadband satellite multimedia (ETSI BSM) architecture is the definition of the Satellite Independent-Service Access Point (SI-SAP) protocol interface, which formally separates Satellite Dependent (SD) from SI layers, thus enabling the implementation of powerful vertical QoS mapping strategies. On the other hand, DVB-S2/RCS satellite standard is considered the driving technology to integrate satellite with terrestrial infrastructure and provide up-to-date services. This paper focuses on the integration of ETSI BSM architecture and DVB-RCS technology, by analysing the adaptations needed on real DVB-RCS terminals to be interoperable with the SI-SAP interface. To this end, the detailed design of an underlying architecture taking into account required adaptations and new functionalities is proposed. The possible further evolutions of the BSM specification are also highlighted, showing the potential for the development of future devices integrating both DVB-RCS and ETSI BSM architectures also in view of the recent upgrade to the DVB-RCS2 standard. The paper also validates the SI-SAP QoS functionalities and proves the performance benefits in terms of QoS and quality of experience of Web-browsing by means of a satellite emulator developed fors this aim. also thanks to the deployment of Adaptive Coding and Modulation available in the second version of the standard. DVB-S and DVB-S2 standards were initially conceived to support video broadcast over satellite, but actually, they can support more general broadcast and broadband transport so as to meet the current service users' demands.