DISCO-2 – an ambitious earth observing student CubeSat for arctic climate research

The severe impact of global warming, especially in the arctic region, have a multitude of consequences spanning from sea-level rises and freshening of the ocean, to significant changes to the animal life, biodiversity and species distribution. As the arctic regions are inherently remote and can be b...

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Bibliographic Details
Published in:Frontiers in Remote Sensing
Main Authors: Dideriksen, Andreas Kjær, Andersen, Mads Fredslund, Priest, Julian, Eriksen, Nikolaj Forskov, Frandsen, Mads Toudal, Melvad, Claus, Rasmussen, Tobias Frejo, Nielsen, Noah Harry Kjeldgård, Strømsnes, Cecillie Thorup, Ahlebæk, Mads Juul, Samsing, Sigrid, Larsen, Thomas Buris, Don, Jeppe, Pedersen, Lasse Alexander Nissen, Jacobsen, Rune Hylsberg, Rysgaard, Søren, Kim, Jung Min, Bayer, Robert, Christensen, Caroline, Christiansen, Emil Fredsted, Gosvig-Leach, Izabella Katharina, Gramstrup, Rasmus, Hermansson, Bóas, Hesselvig, Jesper, Jakobsen, Jonas Mariager, Kjellberg, Daniel Gjesse, Lind, Magnus Sejer, Lindhard, Jeppe, Mikkelsen, Mads, Millinge, Oliver, Moltesen, Tara Møller, Negendahl, Sebastian Dahl, Nielsen, Alexander Björn Kerff, Nielsen, Gustav Balslev, Pedersen, Maja Chieng Frisenberg, Platz, Alexander Stegler Schøler, Rosero, Paul, Savic, Sofia, Sigurðsson, Ívar Óli, Skjernov, Gustav, Sørensen, Nikolaj, Sørensen, Samuel Grund, Theil, Astrid Guldberg, Thomsen, Jacob Bay, Valsted, Nicolaj, Vestergaard, Anna, Karoff, Christoffer
Format: Article in Journal/Newspaper
Language:English
Published: 2024
Subjects:
arctic climate
CubeSat
machine learning
photogrammetry
remote sensing
student involvement
Arctic
Climate change
Global warming
Online Access:https://portal.findresearcher.sdu.dk/da/publications/c53e86ae-0f83-4d4c-b84c-dc476842298f
https://doi.org/10.3389/frsen.2024.1474560
https://findresearcher.sdu.dk/ws/files/278779992/frsen-1-1474560_2_.pdf
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Summary:The severe impact of global warming, especially in the arctic region, have a multitude of consequences spanning from sea-level rises and freshening of the ocean, to significant changes to the animal life, biodiversity and species distribution. As the arctic regions are inherently remote and can be both hazardous and difficult to reach, research to improve our understanding of the climate change impact is often limited to short term field-campaigns. Here we present the Danish DISCO-2 student CubeSat mission, designed to meet the growing need for an Earth-observing platform. This mission leverages the rapid advancements in CubeSat technology over the past decades to overcome the limitations of traditional fieldwork campaigns. DISCO-2 will assist on-going arctic climate research with a payload of optical and thermal cameras in combination with novel in-orbit data analysis capabilities. It will further be capable of performing photogrammetric observations to determine ice volumes from deteriorating glaciers and provide surface temperatures, enabling studies of heat transfer between glaciers and arctic fjords. As a student satellite, the payload capabilities will also be offered to novel student research ideas throughout the mission life time. The modularity and wide range of of-the-shelf-components for CubeSats has facilitated an immense opportunity to tailor this earth observing CubeSat to accommodate specific scientific goals and further provided students at the participating universities with an unparalleled possibility to go from an initial research idea to a running CubeSat mission.

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