The European Optical Nucleus Network

As terrestrial data transmission capacity has been growing quickly, spacecraft to Earth data-rates also need to increase to enable new applications. While K-band (26 GHz) payload data links become a commodity offering multiple Gbps data rates for future Earth Observation missions from Low Earth Orbi...

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Main Authors:	Krynitz, Martin, Heese, Clemens, Knopp, Marcus Thomas, Schulz, Klaus-Jürgen, Henniger, Hennes
Format:	Conference Object
Language:	English
Published:	2021
Subjects:	Raumflugbetrieb und Astronautentraining Tromsø
Online Access:	https://elib.dlr.de/144886/ https://elib.dlr.de/144886/1/SpaceOps2021_Nucleus_Network%202021%208x1477.pdf https://spaceops.iafastro.directory/a/proceedings/SpaceOps-2021/SpaceOps-2021/8/presentations/SpaceOps-2021,8,x1477.show.pptx

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record_format	openpolar
spelling	ftdlr:oai:elib.dlr.de:144886 2024-05-19T07:49:34+00:00 The European Optical Nucleus Network Krynitz, Martin Heese, Clemens Knopp, Marcus Thomas Schulz, Klaus-Jürgen Henniger, Hennes 2021 application/pdf https://elib.dlr.de/144886/ https://elib.dlr.de/144886/1/SpaceOps2021_Nucleus_Network%202021%208x1477.pdf https://spaceops.iafastro.directory/a/proceedings/SpaceOps-2021/SpaceOps-2021/8/presentations/SpaceOps-2021,8,x1477.show.pptx en eng https://elib.dlr.de/144886/1/SpaceOps2021_Nucleus_Network%202021%208x1477.pdf Krynitz, Martin und Heese, Clemens und Knopp, Marcus Thomas und Schulz, Klaus-Jürgen und Henniger, Hennes (2021) The European Optical Nucleus Network. 16th International Conference on Space Operations (SpaceOps 2021), 2021-05-03 - 2021-05-05, virtuell. cc_by_nc_nd Raumflugbetrieb und Astronautentraining Konferenzbeitrag NonPeerReviewed 2021 ftdlr 2024-04-25T00:58:25Z As terrestrial data transmission capacity has been growing quickly, spacecraft to Earth data-rates also need to increase to enable new applications. While K-band (26 GHz) payload data links become a commodity offering multiple Gbps data rates for future Earth Observation missions from Low Earth Orbit, e.g. for the Copernicus program, increasingly stakeholders are looking into optical solutions for spacecraft to ground data links with the expectation of 10 Gbps and multiples thereof. However, the development of optical communications from space to ground has been slow due to the lack of an operational and reliable ground segment that can receive data at multiple locations, mitigating the link blockage by clouds, integrate it in the cloud and make it available to the end user in near real-time. All this within a competitive cost level compared to traditional radio frequency (RF) services. The European Optical Nucleus Network is an initiative between Space Agencies and industry to over-come the lack of availability of an optical ground station network. This is achieved by creating a multi-site, multi-mission network which supports common CCSDS standards and space-terminal implementations available to spacecraft operators with optical communication systems onboard. The idea is that participating parties contribute operations time on self-funded optical ground stations to an integrated ground station network that is made available to the space community as a service. The initial European Optical Nucleus Network consists of optical ground stations from ESA-OPS on Tenerife (Canary Islands), DLR-GSOC in Almeria (Spain) and KSAT in Nemea (Greece). These will be connected to the KSAT network operations center (NOC) in Tromsø that also controls KSAT’s 200 RF-antennas on 22 sites around the globe. From a user perspective this allows a single point of contact and frees the user from managing multiple sites and integrating these through different interfaces. The European Optical Nucleus Network will be the first operational ... Conference Object Tromsø German Aerospace Center: elib - DLR electronic library
institution	Open Polar
collection	German Aerospace Center: elib - DLR electronic library
op_collection_id	ftdlr
language	English
topic	Raumflugbetrieb und Astronautentraining
spellingShingle	Raumflugbetrieb und Astronautentraining Krynitz, Martin Heese, Clemens Knopp, Marcus Thomas Schulz, Klaus-Jürgen Henniger, Hennes The European Optical Nucleus Network
topic_facet	Raumflugbetrieb und Astronautentraining
description	As terrestrial data transmission capacity has been growing quickly, spacecraft to Earth data-rates also need to increase to enable new applications. While K-band (26 GHz) payload data links become a commodity offering multiple Gbps data rates for future Earth Observation missions from Low Earth Orbit, e.g. for the Copernicus program, increasingly stakeholders are looking into optical solutions for spacecraft to ground data links with the expectation of 10 Gbps and multiples thereof. However, the development of optical communications from space to ground has been slow due to the lack of an operational and reliable ground segment that can receive data at multiple locations, mitigating the link blockage by clouds, integrate it in the cloud and make it available to the end user in near real-time. All this within a competitive cost level compared to traditional radio frequency (RF) services. The European Optical Nucleus Network is an initiative between Space Agencies and industry to over-come the lack of availability of an optical ground station network. This is achieved by creating a multi-site, multi-mission network which supports common CCSDS standards and space-terminal implementations available to spacecraft operators with optical communication systems onboard. The idea is that participating parties contribute operations time on self-funded optical ground stations to an integrated ground station network that is made available to the space community as a service. The initial European Optical Nucleus Network consists of optical ground stations from ESA-OPS on Tenerife (Canary Islands), DLR-GSOC in Almeria (Spain) and KSAT in Nemea (Greece). These will be connected to the KSAT network operations center (NOC) in Tromsø that also controls KSAT’s 200 RF-antennas on 22 sites around the globe. From a user perspective this allows a single point of contact and frees the user from managing multiple sites and integrating these through different interfaces. The European Optical Nucleus Network will be the first operational ...
format	Conference Object
author	Krynitz, Martin Heese, Clemens Knopp, Marcus Thomas Schulz, Klaus-Jürgen Henniger, Hennes
author_facet	Krynitz, Martin Heese, Clemens Knopp, Marcus Thomas Schulz, Klaus-Jürgen Henniger, Hennes
author_sort	Krynitz, Martin
title	The European Optical Nucleus Network
title_short	The European Optical Nucleus Network
title_full	The European Optical Nucleus Network
title_fullStr	The European Optical Nucleus Network
title_full_unstemmed	The European Optical Nucleus Network
title_sort	european optical nucleus network
publishDate	2021
url	https://elib.dlr.de/144886/ https://elib.dlr.de/144886/1/SpaceOps2021_Nucleus_Network%202021%208x1477.pdf https://spaceops.iafastro.directory/a/proceedings/SpaceOps-2021/SpaceOps-2021/8/presentations/SpaceOps-2021,8,x1477.show.pptx
genre	Tromsø
genre_facet	Tromsø
op_relation	https://elib.dlr.de/144886/1/SpaceOps2021_Nucleus_Network%202021%208x1477.pdf Krynitz, Martin und Heese, Clemens und Knopp, Marcus Thomas und Schulz, Klaus-Jürgen und Henniger, Hennes (2021) The European Optical Nucleus Network. 16th International Conference on Space Operations (SpaceOps 2021), 2021-05-03 - 2021-05-05, virtuell.
op_rights	cc_by_nc_nd
_version_	1799468069728288768

The European Optical Nucleus Network

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