GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept

The global navigation satellite system (GNSS) Transpolar Earth Reflectometry exploriNg system (G-TERN) was proposed in response to ESA's Earth Explorer 9 revised call by a team of 33 multi-disciplinary scientists. The primary objective of the mission is to quantify at high spatio-temporal resol...

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Published in:IEEE Access
Main Authors: Cardellach, Estel, Flato, Greg, Fragner, Heinrich, Gabarro, Carolina, Gommenginger, Christine, Haas, Christian, Healy, Sean, Hernandez-Pajares, Manuel, Hoeg, Per, Jaggi, Adrian, Kainulainen, Juha, Wickert, Jens, Khan, Shfaqat Abbas, Lemke, Norbert M. K., Li, Weiqiang, Nghiem, Son V., Pierdicca, Nazzareno, Portabella, Marcos, Rautiainen, Kimmo, Rius, Antonio, Sasgen, Ingo, Semmling, Maximilian, Baggen, Rens, Shum, C. K., Soulat, Francois, Steiner, Andrea K., Tailhades, Sebastien, Thomas, Maik, Vilaseca, Roger, Zuffada, Cinzia, Benito, Javier, Camps, Adriano, Catarino, Nuno, Chapron, Bertrand, Dielacher, Andreas, Fabra, Fran
Format: Article in Journal/Newspaper
Language:unknown
Published: 2018
Subjects:
Antarc*
Antarctic
Climate change
Sea ice
Online Access:https://epic.awi.de/id/eprint/51876/
https://doi.org/10.1109/ACCESS.2018.2814072
https://hdl.handle.net/10013/epic.169e3795-1552-4533-803f-a807d110ff7d
id ftawi:oai:epic.awi.de:51876
record_format openpolar
spelling ftawi:oai:epic.awi.de:51876 2024-09-15T17:46:41+00:00 GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept Cardellach, Estel Flato, Greg Fragner, Heinrich Gabarro, Carolina Gommenginger, Christine Haas, Christian Healy, Sean Hernandez-Pajares, Manuel Hoeg, Per Jaggi, Adrian Kainulainen, Juha Wickert, Jens Khan, Shfaqat Abbas Lemke, Norbert M. K. Li, Weiqiang Nghiem, Son V. Pierdicca, Nazzareno Portabella, Marcos Rautiainen, Kimmo Rius, Antonio Sasgen, Ingo Semmling, Maximilian Baggen, Rens Shum, C. K. Soulat, Francois Steiner, Andrea K. Tailhades, Sebastien Thomas, Maik Vilaseca, Roger Zuffada, Cinzia Benito, Javier Camps, Adriano Catarino, Nuno Chapron, Bertrand Dielacher, Andreas Fabra, Fran 2018 https://epic.awi.de/id/eprint/51876/ https://doi.org/10.1109/ACCESS.2018.2814072 https://hdl.handle.net/10013/epic.169e3795-1552-4533-803f-a807d110ff7d unknown Cardellach, E. , Flato, G. , Fragner, H. , Gabarro, C. , Gommenginger, C. , Haas, C. orcid:0000-0002-7674-3500 , Healy, S. , Hernandez-Pajares, M. , Hoeg, P. , Jaggi, A. , Kainulainen, J. , Wickert, J. , Khan, S. A. , Lemke, N. M. K. , Li, W. , Nghiem, S. V. , Pierdicca, N. , Portabella, M. , Rautiainen, K. , Rius, A. , Sasgen, I. , Semmling, M. , Baggen, R. , Shum, C. K. , Soulat, F. , Steiner, A. K. , Tailhades, S. , Thomas, M. , Vilaseca, R. , Zuffada, C. , Benito, J. , Camps, A. , Catarino, N. , Chapron, B. , Dielacher, A. and Fabra, F. (2018) GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept , IEEE Access, 6 , pp. 13980-14018 . doi:10.1109/ACCESS.2018.2814072 <https://doi.org/10.1109/ACCESS.2018.2814072> , hdl:10013/epic.169e3795-1552-4533-803f-a807d110ff7d EPIC3IEEE Access, 6, pp. 13980-14018, ISSN: 2169-3536 Article isiRev 2018 ftawi https://doi.org/10.1109/ACCESS.2018.2814072 2024-06-24T04:24:41Z The global navigation satellite system (GNSS) Transpolar Earth Reflectometry exploriNg system (G-TERN) was proposed in response to ESA's Earth Explorer 9 revised call by a team of 33 multi-disciplinary scientists. The primary objective of the mission is to quantify at high spatio-temporal resolution crucial characteristics, processes and interactions between sea ice, and other Earth system components in order to advance the understanding and prediction of climate change and its impacts on the environment and society. The objective is articulated through three key questions. 1) In a rapidly changing Arctic regime and under the resilient Antarctic sea ice trend, how will highly dynamic forcings and couplings between the various components of the ocean, atmosphere, and cryosphere modify or influence the processes governing the characteristics of the sea ice cover (ice production, growth, deformation, and melt)? 2) What are the impacts of extreme events and feedback mechanisms on sea ice evolution? 3) What are the effects of the cryosphere behaviors, either rapidly changing or resiliently stable, on the global oceanic and atmospheric circulation and mid-latitude extreme events? To contribute answering these questions, G-TERN will measure key parameters of the sea ice, the oceans, and the atmosphere with frequent and dense coverage over polar areas, becoming a “dynamic mapper”of the ice conditions, the ice production, and the loss in multiple time and space scales, and surrounding environment. Over polar areas, the G-TERN will measure sea ice surface elevation (<;10 cm precision), roughness, and polarimetry aspects at 30-km resolution and 3-days full coverage. G-TERN will implement the interferometric GNSS reflectometry concept, from a single satellite in near-polar orbit with capability for 12 simultaneous observations. Unlike currently orbiting GNSS reflectometry missions, the G-TERN uses the full GNSS available bandwidth to improve its ranging measurements. The lifetime would be 2025-2030 or optimally ... Article in Journal/Newspaper Antarc* Antarctic Climate change Sea ice Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) IEEE Access 6 13980 14018
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description The global navigation satellite system (GNSS) Transpolar Earth Reflectometry exploriNg system (G-TERN) was proposed in response to ESA's Earth Explorer 9 revised call by a team of 33 multi-disciplinary scientists. The primary objective of the mission is to quantify at high spatio-temporal resolution crucial characteristics, processes and interactions between sea ice, and other Earth system components in order to advance the understanding and prediction of climate change and its impacts on the environment and society. The objective is articulated through three key questions. 1) In a rapidly changing Arctic regime and under the resilient Antarctic sea ice trend, how will highly dynamic forcings and couplings between the various components of the ocean, atmosphere, and cryosphere modify or influence the processes governing the characteristics of the sea ice cover (ice production, growth, deformation, and melt)? 2) What are the impacts of extreme events and feedback mechanisms on sea ice evolution? 3) What are the effects of the cryosphere behaviors, either rapidly changing or resiliently stable, on the global oceanic and atmospheric circulation and mid-latitude extreme events? To contribute answering these questions, G-TERN will measure key parameters of the sea ice, the oceans, and the atmosphere with frequent and dense coverage over polar areas, becoming a “dynamic mapper”of the ice conditions, the ice production, and the loss in multiple time and space scales, and surrounding environment. Over polar areas, the G-TERN will measure sea ice surface elevation (<;10 cm precision), roughness, and polarimetry aspects at 30-km resolution and 3-days full coverage. G-TERN will implement the interferometric GNSS reflectometry concept, from a single satellite in near-polar orbit with capability for 12 simultaneous observations. Unlike currently orbiting GNSS reflectometry missions, the G-TERN uses the full GNSS available bandwidth to improve its ranging measurements. The lifetime would be 2025-2030 or optimally ...
format Article in Journal/Newspaper
author Cardellach, Estel
Flato, Greg
Fragner, Heinrich
Gabarro, Carolina
Gommenginger, Christine
Haas, Christian
Healy, Sean
Hernandez-Pajares, Manuel
Hoeg, Per
Jaggi, Adrian
Kainulainen, Juha
Wickert, Jens
Khan, Shfaqat Abbas
Lemke, Norbert M. K.
Li, Weiqiang
Nghiem, Son V.
Pierdicca, Nazzareno
Portabella, Marcos
Rautiainen, Kimmo
Rius, Antonio
Sasgen, Ingo
Semmling, Maximilian
Baggen, Rens
Shum, C. K.
Soulat, Francois
Steiner, Andrea K.
Tailhades, Sebastien
Thomas, Maik
Vilaseca, Roger
Zuffada, Cinzia
Benito, Javier
Camps, Adriano
Catarino, Nuno
Chapron, Bertrand
Dielacher, Andreas
Fabra, Fran
spellingShingle Cardellach, Estel
Flato, Greg
Fragner, Heinrich
Gabarro, Carolina
Gommenginger, Christine
Haas, Christian
Healy, Sean
Hernandez-Pajares, Manuel
Hoeg, Per
Jaggi, Adrian
Kainulainen, Juha
Wickert, Jens
Khan, Shfaqat Abbas
Lemke, Norbert M. K.
Li, Weiqiang
Nghiem, Son V.
Pierdicca, Nazzareno
Portabella, Marcos
Rautiainen, Kimmo
Rius, Antonio
Sasgen, Ingo
Semmling, Maximilian
Baggen, Rens
Shum, C. K.
Soulat, Francois
Steiner, Andrea K.
Tailhades, Sebastien
Thomas, Maik
Vilaseca, Roger
Zuffada, Cinzia
Benito, Javier
Camps, Adriano
Catarino, Nuno
Chapron, Bertrand
Dielacher, Andreas
Fabra, Fran
GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept
author_facet Cardellach, Estel
Flato, Greg
Fragner, Heinrich
Gabarro, Carolina
Gommenginger, Christine
Haas, Christian
Healy, Sean
Hernandez-Pajares, Manuel
Hoeg, Per
Jaggi, Adrian
Kainulainen, Juha
Wickert, Jens
Khan, Shfaqat Abbas
Lemke, Norbert M. K.
Li, Weiqiang
Nghiem, Son V.
Pierdicca, Nazzareno
Portabella, Marcos
Rautiainen, Kimmo
Rius, Antonio
Sasgen, Ingo
Semmling, Maximilian
Baggen, Rens
Shum, C. K.
Soulat, Francois
Steiner, Andrea K.
Tailhades, Sebastien
Thomas, Maik
Vilaseca, Roger
Zuffada, Cinzia
Benito, Javier
Camps, Adriano
Catarino, Nuno
Chapron, Bertrand
Dielacher, Andreas
Fabra, Fran
author_sort Cardellach, Estel
title GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept
title_short GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept
title_full GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept
title_fullStr GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept
title_full_unstemmed GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept
title_sort gnss transpolar earth reflectometry exploring system (g-tern): mission concept
publishDate 2018
url https://epic.awi.de/id/eprint/51876/
https://doi.org/10.1109/ACCESS.2018.2814072
https://hdl.handle.net/10013/epic.169e3795-1552-4533-803f-a807d110ff7d
genre Antarc*
Antarctic
Climate change
Sea ice
genre_facet Antarc*
Antarctic
Climate change
Sea ice
op_source EPIC3IEEE Access, 6, pp. 13980-14018, ISSN: 2169-3536
op_relation Cardellach, E. , Flato, G. , Fragner, H. , Gabarro, C. , Gommenginger, C. , Haas, C. orcid:0000-0002-7674-3500 , Healy, S. , Hernandez-Pajares, M. , Hoeg, P. , Jaggi, A. , Kainulainen, J. , Wickert, J. , Khan, S. A. , Lemke, N. M. K. , Li, W. , Nghiem, S. V. , Pierdicca, N. , Portabella, M. , Rautiainen, K. , Rius, A. , Sasgen, I. , Semmling, M. , Baggen, R. , Shum, C. K. , Soulat, F. , Steiner, A. K. , Tailhades, S. , Thomas, M. , Vilaseca, R. , Zuffada, C. , Benito, J. , Camps, A. , Catarino, N. , Chapron, B. , Dielacher, A. and Fabra, F. (2018) GNSS Transpolar Earth Reflectometry exploriNg System (G-TERN): Mission Concept , IEEE Access, 6 , pp. 13980-14018 . doi:10.1109/ACCESS.2018.2814072 <https://doi.org/10.1109/ACCESS.2018.2814072> , hdl:10013/epic.169e3795-1552-4533-803f-a807d110ff7d
op_doi https://doi.org/10.1109/ACCESS.2018.2814072
container_title IEEE Access
container_volume 6
container_start_page 13980
op_container_end_page 14018
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