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Raumfahrt - Inmarsat-Satelliten im Zeitplan gebaut für "bahnbrechendes " European Aviation Netzwerk

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Photo Caption: Thales Alenia Space assembles the communication module of Inmarsat’s European Aviation Network satellite
Photo Source: Thales Alenia Space/Imag[IN]
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Satellite constructed on schedule for Inmarsat’s ‘ground-breaking’ European Aviation Network
Europe moves a step closer to offering air travellers the most powerful broadband experience in the sky after first-of-its-kind connectivity network achieves key milestone
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Inmarsat, the world’s leading provider of global mobile satellite communications, announced today that construction and associated sub-system tests of the satellite for its market-changing European Aviation Network (EAN) in-flight connectivity solution has been completed on schedule by Thales Alenia Space.
The key milestone was achieved on schedule following an extensive two-year build process in Toulouse and Cannes, France. The completed S-band payload module was shipped in early July to Thales Alenia Space’s testing center in Cannes, where satellite integration (‘mating’) was also successfully completed.  The satellite is now undergoing rigorous system end-to-end testing before it is declared ready for flight in 2017.
EAN is the world’s first integrated satellite and air-to-ground network dedicated to providing a true in-flight broadband experience for Europe’s aviation industry and for millions of passengers who have been cut-off from fast, reliable and consistent broadband access during their flights.
The satellite has been custom-designed to provide mobile satellite services (MSS) to aircraft flying over the dense European routes, exploiting Inmarsat’s 30MHz (2 x 15MHz) S-band spectrum allocation in all 28 EU member states, plus Norway and Switzerland.
It will be integrated with a LTE-based ground network covering approximately 300 sites, operated by Inmarsat’s partner Deutsche Telekom. Aircraft will switch automatically between satellite and terrestrial connectivity using an on–board network communicator for optimal service delivery.
Leo Mondale, President of Inmarsat Aviation, said: “The European Aviation Network has been specifically engineered to meet the connectivity needs of the aviation industry and is a cornerstone in our expanding worldwide mobile cellular network. It will offer unprecedented high-speed capacity at 75Mb/s with near zero latency while flying over Europe, so passengers can enjoy an easy-to-use true broadband experience for internet streaming, gaming and other online services direct to their personal smart devices. In addition, with no moving parts on the aircraft, the solution is not only lightweight, but also easy to install, very robust and low maintenance.
“The on-time construction of our multi-beam satellite, as well as Deutsche Telekom’s ground network of approximately 300 new LTE sites across Europe, highlights the rapid progress we are making with the European Aviation Network. The coming together of Inmarsat and market-leaders across Europe, including Thales, Deutsche Telekom, Nokia, Cobham SATCOM and OTE, on this ground-breaking development will strengthen Europe’s position as a global technology innovator and support the continued growth of its aviation industry.”
Over the coming months, Inmarsat’s new S-band satellite will be put in a thermal vacuum chamber with no pressure to simulate the space environment and cycled through extreme high and low temperatures to ensure it operates nominally. Mechanical and acoustic testing will then replicate the launch environment, followed by final phase testing to compare any shifts or variations in measurements against the initial base line. Once these tests are complete, the satellite will be prepared for launch by SpaceX at Cape Canaveral in Florida, scheduled to take place in 2017.
Michele Franci, Chief Technology Officer at Inmarsat said: “We are really proud to have achieved this major milestone on schedule and look forward to the extensive testing, which will ensure the satellite is free from defects and will be able to survive the harsh launch and space environments that it will face. This will include an end-to-end verification of all components to ensure that every component is operating within its defined parameters.”
Quelle: Inmarsat
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