FrOGS: French Optical Ground Station for space laser applications

被引:0
|
作者
Artaud, Geraldine [1 ]
Eymar, Loic [2 ]
Quentel, Alain [3 ]
Schimpf, Armin [4 ]
Coret, Laurent [5 ]
Diet, Megane [1 ]
Chavanas, Guillaume [1 ]
Baranger, Hugo [1 ]
Benammar, Bouchra [1 ]
Battaglino, Daniele [2 ]
Bondoux, Erick [2 ]
Drouilly, Romain [2 ]
Garcia, Louise [2 ]
Jans, Baptiste [2 ]
Lanz, Thierry [2 ]
Samain, Etienne [2 ]
Vincenti, Julien [2 ]
Samain, Leo [6 ]
Thomas, Alain [3 ]
De Guembecker, Nicolas [5 ]
机构
[1] CNES French Space Agcy, 18 Ave Edouard Belin, F-31401 Toulouse, France
[2] OGS Technol, 535 Chemin Rouvres, F-06410 Biot, France
[3] Safran Data Syst, 5 Ave Andes, F-91940 Les Ulis, France
[4] ALPAO, 727 Rue Aristide Berges, F-38330 Montbonnot St Martin, France
[5] Airbus Def & Space, 31 Rue Cosmonautes, F-31400 Toulouse, France
[6] LSA Engn, 8 Allee Bellevue, F-06460 St Vallier De Thiey, France
来源
2023 IEEE INTERNATIONAL CONFERENCE ON SPACE OPTICAL SYSTEMS AND APPLICATIONS, ICSOS | 2023年
关键词
OGS; optical communications; LEO DTE; GEO feederlink; TELEO; LASIN;
D O I
10.1109/ICSOS59710.2023.10491231
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
This paper presents a new French Optical Ground Station (FrOGS) that is currently being developed, at the French Riviera observatory close to Grasse. This development is supported by CNES and co-financed by a consortium of industrials: Safran Data System, OGS Technologies, ALPAO, and Airbus Defence and Space. The article presents the versatile architecture of the optical ground station. The optical instrument can be used for various applications, and optical benches are application-specific. The two main applications that are currently implemented in the station are LEO direct to earth data repatriation and satCOM feederlink. FrOGS will be indeed used as the reference OGS of the LEO to ground demonstration LASIN [1], and building blocks for optical feeder link will be tested during the GEO to ground demonstration TELEO [2].
引用
收藏
页码:182 / 188
页数:7
相关论文
共 50 条
  • [1] Arrayed Space Optical Communications: Localization of the Ground Station
    Fang, Zexi
    Manikas, Athanassios
    2017 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC), 2017,
  • [2] Transportable optical ground station for high-speed free-space laser communication
    Shrestha, Amita
    Brechtelsbauer, Martin
    LASER COMMUNICATION AND PROPAGATION THROUGH THE ATMOSPHERE AND OCEANS, 2012, 8517
  • [3] Ground Station Network Optimization for Space-to-Ground Optical Communication Links
    Fuchs, Christian
    Moll, Florian
    JOURNAL OF OPTICAL COMMUNICATIONS AND NETWORKING, 2015, 7 (12) : 1148 - 1159
  • [4] Deep Space Communication with the ANU Optical Communications Ground Station
    Copeland, Michael
    Bennet, Francis
    Birch, Marcus
    Ferguson, Kate
    Grosse, Doris
    Jager, Elisa
    Rey, Noelia Martinez
    Travouillon, Tony
    FREE-SPACE LASER COMMUNICATIONS XXXVI, 2024, 12877
  • [5] Projective virtual reality in space applications: A telerobotic ground station for a space mission
    Freund, E
    Rossmann, J
    Schluse, M
    SENSOR FUSION AND DECENTRALIZED CONTROL IN ROBOTIC SYSTEMS III, 2000, 4196 : 279 - 290
  • [6] Optical instruments for space-to-ground laser communication
    Bennet, Francis
    2022 3RD URSI ATLANTIC AND ASIA PACIFIC RADIO SCIENCE MEETING (AT-AP-RASC), 2022,
  • [7] Design of an athermal zoom optical system for space station applications
    Kong, Xiangdong
    Mei, Chao
    Qu, Rui
    Guo, Xinyu
    APPLIED OPTICS, 2025, 64 (07) : 1653 - 1659
  • [8] Space-to-ground quantum-communication using an optical ground station: a feasibility study
    Villoresi, P
    Tamburini, F
    Aspelmeyer, M
    Jennewein, T
    Ursin, R
    Pernechele, C
    Bianco, G
    Zeilinger, A
    Barbieri, C
    QUANTUM COMMUNICATIONS AND QUANTUM IMAGING II, 2004, 5551 : 113 - 120
  • [9] Robotic hand developed for both space missions on the International Space Station and commercial applications on the ground
    Ueno, Taihei
    Oda, Mitsushige
    2009 IEEE-RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS, 2009, : 1791 - 1796
  • [10] Laser based bi directional Gbit ground links with the Tesat transportable optical ground station
    Heine, Frank
    Saucke, Karen
    Troendle, Daniel
    Motzigemba, Matthias
    Bischl, Hermann
    Elser, Dominique
    Marquardt, Christoph
    Henniger, Hennes
    Meyer, Rolf
    Richter, Ines
    Sodnik, Zoran
    FREE-SPACE LASER COMMUNICATION AND ATMOSPHERIC PROPAGATION XXIX, 2017, 10096
12345