Title :
Optical GEO feeder link design
Author :
Perlot, Nicolas ; Dreischer, Thomas ; Weinert, Carl M. ; Perdigues, Josep
Author_Institution :
Fraunhofer Inst. of Telecommun., Heinrich-Hertz Inst., Berlin, Germany
Abstract :
Telecommunication satellites must follow the advances of terrestrial network capacities and increase their total throughputs in order to remain competitive. This paper shows how the terrestrial fibre technology at 1550-nm wavelength can be extended to support an optical feeder link between ground and a GEO satellite. With 100 Gb/s in a single direction, an optical uplink would outperform the near-term Ka-band systems. Mitigation techniques against clouds and turbulence are described. The impact of satellite transparency on the optical transmission system is discussed. To increase the profitability of the optical solution, cost and link availability associated with various ground station networks should be carefully assessed.
Keywords :
atmospheric turbulence; clouds; optical communication; satellite ground stations; GEO satellite; bit rate 100 Gbit/s; clouds; ground station networks; link availability; mitigation technique; near-term Ka-band systems; optical GEO feeder link design; optical transmission system; optical uplink; satellite transparency; telecommunication satellites; terrestrial fibre technology; terrestrial network capacity; turbulence; wavelength 1550 nm; Logic gates; Optical fiber communication; Optical fiber sensors; Optical fibers; Satellites; GEO feeder link; free-space optical communications; satellite communications;
Conference_Titel :
Future Network & Mobile Summit (FutureNetw), 2012
Conference_Location :
Berlin
Print_ISBN :
978-1-4673-0320-0
