First results of ground to GEO optical links channel monitoring with FEELINGS

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autorschaft

  • Nicolas Védreiine
  • Aurélie Montmerle-Bonnefois
  • Cyril Petit
  • Elyes Chalali
  • Yann Lai-Tim
  • Léa Krafft
  • Jérôme Henrion
  • Julien Houy
  • François Gustave
  • Karine Caillault
  • Andres Bedoya
  • Delphine Barbon-Dubosc
  • Axel Vincent-Randonnier
  • Florian Quatresooz
  • Gaël Kermarrec
  • Jean Christophe Richard
  • Sylvain Poulenard
  • Laurent Coret
  • Jean Frédéric Chouteau
  • Thomas Anfray

Organisationseinheiten

Externe Organisationen

  • Universität Paris-Saclay
  • Université de Toulouse
  • Katholische Universität Löwen (UCL)
  • Airbus Group
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksInternational Conference on Space Optics, ICSO 2024
Herausgeber/-innenFrederic Bernard, Nikos Karafolas, Philippe Kubik, Kyriaki Minoglou
Herausgeber (Verlag)SPIE
ISBN (elektronisch)9781510693470
PublikationsstatusVeröffentlicht - 28 Juli 2025
Veranstaltung2024 International Conference on Space Optics, ICSO 2024 - Antibes Juan-les-Pins, Frankreich
Dauer: 21 Okt. 202425 Okt. 2024

Publikationsreihe

NameProceedings of SPIE - The International Society for Optical Engineering
Band13699
ISSN (Print)0277-786X
ISSN (elektronisch)1996-756X

Abstract

In the coming decade, optical GEO feeder links should form the backbone of future spatialized high-data rate networks, provided that atmospheric propagation channel influence can be adequately mitigated. Currently foreseen mitigation strategies (interleaving and error correcting codes) rely on strong hypothesis on the statistics of the transmitted optical power, the latter being particularly dependent on the atmospheric channel models considered to tune them. Atmospheric transmission is affected by thin clouds (cirrus), aerosols and contrails, resulting in a several dB uncertainty in the link budget. Atmospheric turbulence causes fluctuations in the transmitted power, with properties highly dependent on the turbulence distribution along the line of sight and its temporal characteristics. Though well-documented in the favorable propagation environments of astronomical observatories, the compatibility of propagation channel properties with very high data rates still needs to be demonstrated for ground segments located closer to densely populated areas. In order to characterize the relationship between challenging optical propagation and optical link performance, ONERA has built the FEELINGS ground station, a 600 mm based adaptive optics (AO) corrected demonstrator equipped with a 50 W optical booster. Located in the periphery of Toulouse, FEELINGS' primary objective is to address the scientific and technological uncertainties associated with optical links and their application in realistic environments. The aim is to pave the way for future operational Optical Ground Stations (OGS) systems. The TELEO payload developed by Airbus, composed of a TOP-M laser terminal with a 260 mm diameter telescope, a 5 W optical amplifier and a 10 Gbaud compatible data transceiver, enables both uplink and downlink 10 Gbaud data transmission. Recently put into orbit, it offers a unique opportunity to confront atmospheric propagation channel models to the challenges of regular high data rate operations. This paper will present the first results of optical links between TELEO and ONERA's ground segment with a specific focus on the propagation channel analysis and modeling for the uplink.

ASJC Scopus Sachgebiete

Zitieren

First results of ground to GEO optical links channel monitoring with FEELINGS. / Védreiine, Nicolas; Montmerle-Bonnefois, Aurélie; Petit, Cyril et al.
International Conference on Space Optics, ICSO 2024. Hrsg. / Frederic Bernard; Nikos Karafolas; Philippe Kubik; Kyriaki Minoglou. SPIE, 2025. 136990P (Proceedings of SPIE - The International Society for Optical Engineering; Band 13699).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Védreiine, N, Montmerle-Bonnefois, A, Petit, C, Chalali, E, Lai-Tim, Y, Krafft, L, Henrion, J, Houy, J, Gustave, F, Caillault, K, Bedoya, A, Barbon-Dubosc, D, Vincent-Randonnier, A, Quatresooz, F, Kermarrec, G, Richard, JC, Poulenard, S, Coret, L, Chouteau, JF & Anfray, T 2025, First results of ground to GEO optical links channel monitoring with FEELINGS. in F Bernard, N Karafolas, P Kubik & K Minoglou (Hrsg.), International Conference on Space Optics, ICSO 2024., 136990P, Proceedings of SPIE - The International Society for Optical Engineering, Bd. 13699, SPIE, 2024 International Conference on Space Optics, ICSO 2024, Antibes Juan-les-Pins, Frankreich, 21 Okt. 2024. https://doi.org/10.1117/12.3075417
Védreiine, N., Montmerle-Bonnefois, A., Petit, C., Chalali, E., Lai-Tim, Y., Krafft, L., Henrion, J., Houy, J., Gustave, F., Caillault, K., Bedoya, A., Barbon-Dubosc, D., Vincent-Randonnier, A., Quatresooz, F., Kermarrec, G., Richard, J. C., Poulenard, S., Coret, L., Chouteau, J. F., & Anfray, T. (2025). First results of ground to GEO optical links channel monitoring with FEELINGS. In F. Bernard, N. Karafolas, P. Kubik, & K. Minoglou (Hrsg.), International Conference on Space Optics, ICSO 2024 Artikel 136990P (Proceedings of SPIE - The International Society for Optical Engineering; Band 13699). SPIE. https://doi.org/10.1117/12.3075417
Védreiine N, Montmerle-Bonnefois A, Petit C, Chalali E, Lai-Tim Y, Krafft L et al. First results of ground to GEO optical links channel monitoring with FEELINGS. in Bernard F, Karafolas N, Kubik P, Minoglou K, Hrsg., International Conference on Space Optics, ICSO 2024. SPIE. 2025. 136990P. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.3075417
Védreiine, Nicolas ; Montmerle-Bonnefois, Aurélie ; Petit, Cyril et al. / First results of ground to GEO optical links channel monitoring with FEELINGS. International Conference on Space Optics, ICSO 2024. Hrsg. / Frederic Bernard ; Nikos Karafolas ; Philippe Kubik ; Kyriaki Minoglou. SPIE, 2025. (Proceedings of SPIE - The International Society for Optical Engineering).
Download
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abstract = "In the coming decade, optical GEO feeder links should form the backbone of future spatialized high-data rate networks, provided that atmospheric propagation channel influence can be adequately mitigated. Currently foreseen mitigation strategies (interleaving and error correcting codes) rely on strong hypothesis on the statistics of the transmitted optical power, the latter being particularly dependent on the atmospheric channel models considered to tune them. Atmospheric transmission is affected by thin clouds (cirrus), aerosols and contrails, resulting in a several dB uncertainty in the link budget. Atmospheric turbulence causes fluctuations in the transmitted power, with properties highly dependent on the turbulence distribution along the line of sight and its temporal characteristics. Though well-documented in the favorable propagation environments of astronomical observatories, the compatibility of propagation channel properties with very high data rates still needs to be demonstrated for ground segments located closer to densely populated areas. In order to characterize the relationship between challenging optical propagation and optical link performance, ONERA has built the FEELINGS ground station, a 600 mm based adaptive optics (AO) corrected demonstrator equipped with a 50 W optical booster. Located in the periphery of Toulouse, FEELINGS' primary objective is to address the scientific and technological uncertainties associated with optical links and their application in realistic environments. The aim is to pave the way for future operational Optical Ground Stations (OGS) systems. The TELEO payload developed by Airbus, composed of a TOP-M laser terminal with a 260 mm diameter telescope, a 5 W optical amplifier and a 10 Gbaud compatible data transceiver, enables both uplink and downlink 10 Gbaud data transmission. Recently put into orbit, it offers a unique opportunity to confront atmospheric propagation channel models to the challenges of regular high data rate operations. This paper will present the first results of optical links between TELEO and ONERA's ground segment with a specific focus on the propagation channel analysis and modeling for the uplink.",
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T1 - First results of ground to GEO optical links channel monitoring with FEELINGS

AU - Védreiine, Nicolas

AU - Montmerle-Bonnefois, Aurélie

AU - Petit, Cyril

AU - Chalali, Elyes

AU - Lai-Tim, Yann

AU - Krafft, Léa

AU - Henrion, Jérôme

AU - Houy, Julien

AU - Gustave, François

AU - Caillault, Karine

AU - Bedoya, Andres

AU - Barbon-Dubosc, Delphine

AU - Vincent-Randonnier, Axel

AU - Quatresooz, Florian

AU - Kermarrec, Gaël

AU - Richard, Jean Christophe

AU - Poulenard, Sylvain

AU - Coret, Laurent

AU - Chouteau, Jean Frédéric

AU - Anfray, Thomas

N1 - Publisher Copyright: © 2025 ESA and CNES.

PY - 2025/7/28

Y1 - 2025/7/28

N2 - In the coming decade, optical GEO feeder links should form the backbone of future spatialized high-data rate networks, provided that atmospheric propagation channel influence can be adequately mitigated. Currently foreseen mitigation strategies (interleaving and error correcting codes) rely on strong hypothesis on the statistics of the transmitted optical power, the latter being particularly dependent on the atmospheric channel models considered to tune them. Atmospheric transmission is affected by thin clouds (cirrus), aerosols and contrails, resulting in a several dB uncertainty in the link budget. Atmospheric turbulence causes fluctuations in the transmitted power, with properties highly dependent on the turbulence distribution along the line of sight and its temporal characteristics. Though well-documented in the favorable propagation environments of astronomical observatories, the compatibility of propagation channel properties with very high data rates still needs to be demonstrated for ground segments located closer to densely populated areas. In order to characterize the relationship between challenging optical propagation and optical link performance, ONERA has built the FEELINGS ground station, a 600 mm based adaptive optics (AO) corrected demonstrator equipped with a 50 W optical booster. Located in the periphery of Toulouse, FEELINGS' primary objective is to address the scientific and technological uncertainties associated with optical links and their application in realistic environments. The aim is to pave the way for future operational Optical Ground Stations (OGS) systems. The TELEO payload developed by Airbus, composed of a TOP-M laser terminal with a 260 mm diameter telescope, a 5 W optical amplifier and a 10 Gbaud compatible data transceiver, enables both uplink and downlink 10 Gbaud data transmission. Recently put into orbit, it offers a unique opportunity to confront atmospheric propagation channel models to the challenges of regular high data rate operations. This paper will present the first results of optical links between TELEO and ONERA's ground segment with a specific focus on the propagation channel analysis and modeling for the uplink.

AB - In the coming decade, optical GEO feeder links should form the backbone of future spatialized high-data rate networks, provided that atmospheric propagation channel influence can be adequately mitigated. Currently foreseen mitigation strategies (interleaving and error correcting codes) rely on strong hypothesis on the statistics of the transmitted optical power, the latter being particularly dependent on the atmospheric channel models considered to tune them. Atmospheric transmission is affected by thin clouds (cirrus), aerosols and contrails, resulting in a several dB uncertainty in the link budget. Atmospheric turbulence causes fluctuations in the transmitted power, with properties highly dependent on the turbulence distribution along the line of sight and its temporal characteristics. Though well-documented in the favorable propagation environments of astronomical observatories, the compatibility of propagation channel properties with very high data rates still needs to be demonstrated for ground segments located closer to densely populated areas. In order to characterize the relationship between challenging optical propagation and optical link performance, ONERA has built the FEELINGS ground station, a 600 mm based adaptive optics (AO) corrected demonstrator equipped with a 50 W optical booster. Located in the periphery of Toulouse, FEELINGS' primary objective is to address the scientific and technological uncertainties associated with optical links and their application in realistic environments. The aim is to pave the way for future operational Optical Ground Stations (OGS) systems. The TELEO payload developed by Airbus, composed of a TOP-M laser terminal with a 260 mm diameter telescope, a 5 W optical amplifier and a 10 Gbaud compatible data transceiver, enables both uplink and downlink 10 Gbaud data transmission. Recently put into orbit, it offers a unique opportunity to confront atmospheric propagation channel models to the challenges of regular high data rate operations. This paper will present the first results of optical links between TELEO and ONERA's ground segment with a specific focus on the propagation channel analysis and modeling for the uplink.

KW - Adaptive optics

KW - atmospheric turbulence

KW - optical links

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T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - International Conference on Space Optics, ICSO 2024

A2 - Bernard, Frederic

A2 - Karafolas, Nikos

A2 - Kubik, Philippe

A2 - Minoglou, Kyriaki

PB - SPIE

T2 - 2024 International Conference on Space Optics, ICSO 2024

Y2 - 21 October 2024 through 25 October 2024

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