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Architectural optimization framework for earth-observing heterogeneous constellations : marine weather forecast case

Author
Araguz, C.; Llaveria, D.; Lancheros, E.; Bou, E.; Camps, A.; Alarcon, E.; Tonetti, S.; Cornara, S.; Vicario, G.; Lluch, I.; Matevosyan, H.; Golkar, A.; Cote, J.; Pierotti, S.; Rodríguez, P.; Alvaro, A.; Sochacki, M.; Narkiewicz, J.
Type of activity
Journal article
Journal
Journal of spacecraft and rockets
Date of publication
2019-01-25
First page
1
Last page
13
DOI
10.2514/1.A34182
Project funding
Operational Network of Individual Observation Nodes
Repository
http://hdl.handle.net/2117/131275 Open in new window
URL
https://arc.aiaa.org/doi/10.2514/1.A34182 Open in new window
Abstract
Earth observation satellite programs are currently facing, for some applications, the need to deliver hourly revisit times, subkilometric spatial resolutions, and near-real-time data access times. These stringent requirements, combined with the consolidation of small-satellite platforms and novel distributed architecture approaches, are stressing the need to study the design of new, heterogeneous, and heavily networked satellite systems that can potentially replace or complement traditional spac...
Citation
Araguz, C. [et al.]. Architectural optimization framework for earth-observing heterogeneous constellations : marine weather forecast case. "Journal of spacecraft and rockets", 25 Gener 2019, p. 1-13.
Group of research
EPIC - Energy Processing and Integrated Circuits
PERC-UPC - Power Electronics Research Centre
RSLAB - Remote Sensing Lab

Participants

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