EFAL: EDRS Feeder Link from Antarctic Latitudes - Preliminary Results of Site Investigations, Availability, and System Requirements
Laser communications from ground to geostationary satellites can enable high-rate data repatriation from remote ground station sites. When employing Arctic or Antarctic ground hubs, the low link elevations impose a major challenge due to the strong atmospheric index-of-refraction turbulence impact a...
| Main Authors: | , , , , , , , , |
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| Format: | Conference Object |
| Language: | German |
| Published: |
2014
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| Subjects: | |
| Online Access: | https://elib.dlr.de/89312/ https://elib.dlr.de/89312/1/__192.168.178.179_NAS-Share_OP_Projects_publications_All_2014-Giggenbach-CNF-ICSOS-EFAL_results_Paper_Giggenbach_2014_EFAL-results_ICSOS2014.pdf |
| Summary: | Laser communications from ground to geostationary satellites can enable high-rate data repatriation from remote ground station sites. When employing Arctic or Antarctic ground hubs, the low link elevations impose a major challenge due to the strong atmospheric index-of-refraction turbulence impact and increased attenuation. The usability of the European Data Relays System (EDRS) for data uplinks from an Antarctic ground station has been analyzed in terms of cloud-availability and feasibility in terms of atmospheric turbulence. For model-verification, an on-site wavefront measurement campaign has been carried out. This scenario also serves as worst test-case for future optical GEO-feeder links. |
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