Update on the German and Australasian Optical Ground Station Networks

Networks of ground stations designed to transmit and receive at optical wavelengths through the atmosphere offer an opportunity to provide on-demand, high-bandwidth, secure communications with spacecraft in Earth orbit and beyond. This work describes the operation and activities of current Free Spac...

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Bibliographic Details
Published in:arXiv.org 2024-03
Main Authors: Rattenbury, Nicholas J, Ashby, Joseph, Bennet, Francis, Birch, Marcus, Cater, John E, Ferguson, Kate, Giggenbach, Dirk, Grant, Ken, Knopp, Andreas, Knopp, Marcus T, Kruzins, Ed, Lambert, Andrew, Mudge, Kerry, Qualtrough, Catherine, Raffa, Samuele, Rittershofer, Jonas, Sayat, Mikhael, Schediwy, Sascha, Schwarz, Robert T, Sellars, Matthew, Thearle, Oliver, Travouillon, Tony, Walker, Kevin, Walsh, Shane, Weddell, Stephen
Format: Article
Language:English
Subjects:
Cloud cover
Free-space optical communication
Ground stations
Research facilities
Telescopes
Online Access:Get full text
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Summary:Networks of ground stations designed to transmit and receive at optical wavelengths through the atmosphere offer an opportunity to provide on-demand, high-bandwidth, secure communications with spacecraft in Earth orbit and beyond. This work describes the operation and activities of current Free Space Optical Communication (FSOC) ground stations in Germany and Australasia. In Germany, FSOC facilities are located at the Oberpfaffenhofen campus of the Deutsches Zentrum fur Luft- und Raumfahrt (German Aerospace Center, DLR), the Laser-Bodenstation in Trauen (Responsive Space Cluster Competence Center, DLR), and the Research Center Space of the University of the Bundeswehr Munich in Neubiberg. The DLR also operates a ground station in Almeria, Spain as part of the European Optical Nucleus Network. The Australasian Optical Ground Station Network (AOGSN) is a proposed network of 0.5 -- 0.7m class optical telescopes located across Australia and New Zealand. The development and progress for each node of the AOGSN is reported, along with optimisation of future site locations based on cloud cover analysis.
ISSN:2331-8422