Airbus to carry out a definition study for the ground segment of the Syracuse IV satellite-based military telecommunications system
Communications, Intelligence & Security
The purpose of this one-year study is to examine possible architectures for the Syracuse IV terrestrial network, as well as the new capacity required by the future system. It will scrutinise the pervasiveness of IP (Internet Protocol) technology and the exponential increase in the transmission-speed requirements of the Armed Forces in an ever more interconnected world, while at the same time maintaining security and a very high level of availability.
The study will include the sizing of the network, flow management and prioritisation, using the most advanced network management technologies. Backed by its unique experience of very high-speed satellite networks (in Ka band), Airbus Defence and Space will also examine the capacity optimisation of the future Syracuse IV satellites notably through the use of the latest generation of modems. This study should also make it possible to define the safeguards and resilience mechanisms needed to deal effectively with cyber threats.
The terrestrial and aeronautical mobility of on-board terminals is one of the major challenges for the Syracuse IV ground segment. The study will benefit from the experience and knowhow of Airbus Defence and Space in the field of transport aircraft, intelligence and surveillance, to propose secure high-speed solutions that are both innovative and mature.
The study will also cover the optimisation of through-life support and integrated logistical support for the Syracuse IV system, while guaranteeing a very high level of availability.
In France, Airbus Defence and Space is the supplier of the Comcept network, the first all-IP, very high-speed Ka-band satellite communication system and its 400 user ground stations. The Company is also involved in the construction of the Syracuse IV military satellites and provides satellite telecommunication services to the French Armed Forces, under the Astel-S agreement.
"Airbus is fostering its role as a partner of choice in the field of satellite-based military telecommunications in France. Our French teams will be pooling their expertise in the fields of networks, telecommunication satellites, military transmissions and cyber security," said Eric Souleres, Head of the Communications, Intelligence & Security (CIS) Business Line in France at Airbus Defence and Space.
Apart from the user ground segment, which is the subject of this study, the Syracuse IV satellite communication programme includes the construction of two satellites that, by 2021- 2023, will replace the Syracuse 3A and Syracuse 3B satellites currently in orbit. It also comprises the construction of the ground control segment and the configuration of these new satellites, the construction of new Ka-band communication anchor stations and support for these resources for a period of 17 years as of the commissioning of the first satellite.
The satellites, working in X and Ka bands, will offer increased performance in terms of communication capacity, flexibility and jamming resistance in order to meet the future needs of the Armed Forces.
Airbus is a global leader in aeronautics, space and related services. In 2016, it generated revenues of € 67 billion and employed a workforce of around 134,000. Airbus offers the most comprehensive range of passenger airliners from 100 to more than 600 seats. Airbus is also a European leader providing tanker, combat, transport and mission aircraft, as well as Europe's number one space enterprise and the world's second largest space business. In helicopters, Airbus provides the most efficient civil and military rotorcraft solutions worldwide.
Press releases you might also be interested in
Weitere Informationen zum Thema "Luft- / Raumfahrt":
Unternehmen suchen Unterstützung bei der Digitalisierung
Eine Umfrage des Digitalverbands Bitkom ergab, dass fast jedes zweite Unternehmen (43 Prozent) externe Beratung in Anspruch nimmt, um die Digitalisierung voranzutreiben.Weiterlesen