Dati satellitari di osservazione della Terra, strumenti digitali e città sostenibili

Autori

  • Deodato Tapete

Parole chiave:

Digital Twin, satelliti, applicazioni, città sostenibili, osservazione della terra, EO, piattaforme

Abstract

Earth Observation (EO) is nowadays a primary source of geospatial data to address urban applications. As information layers imported into GIS, EO products are increasingly exploited for cartographic purposes to improve cities representation. The Italian Space Agency (ASI) invests in novel satellite-based applications and digital tools facilitating EO data utilization. Such tools include: thematic exploitation platforms enabling EO data processing by nonexpert users through validated processors; dashboards wherein satellite products are among the input data used during the decision-making process; Digital Twins allowing for what-if scenarios and forecast activities. Recent user-driven developments are presented with regard to urban heat island, coastal applications, conservation of cultural heritage, monitoring and modelling of processes related to terrestrial water cycle.

Riferimenti bibliografici

ASI (2022), Piano Triennale delle Attività (PTA) 2022-2024, https://rb.gy/1pmdgz

Brocca, L. et al. (2024) A Digital Twin of the terrestrial water cycle: a glimpse into the future through high-resolution Earth observations. Frontiers in Science 1, https://doi.org/10.3389/fsci.2023.1190191

Candela, L. et al. (2021) The Italian Thematic Platform costeLAB: from Earth Observation Big Data to products in support to coastal applications

and downstream. Proceedings of the 2021 conference on Big Data from Space, Soille, P., Loekken, S. and Albani, S., eds., EUR 30697 EN, Publications Office of the European Union, Luxembourg, 2021, ISBN 978-92-76-37661-3, https://data.europa.eu/doi/10.2760/125905, JRC125131

Della Giovampaola, I. (2021) SyPEAH: The WebAPP System for Protection and Education to Archaeological Heritage in the Parco Archeologico del Colosseo. Geosciences 11, 246. https://rb.gy/1pmdgz

Demuzere, M., Kittner, J. & Bechtel, B. (2021) LCZ Generator: a web application to create Local Climate Zone maps. Frontiers in Environmental

Science 9, 637455, https://rb.gy/m5lz7f

ESA (2018), Thematic Exploitation Platform (TEPs), https://sdg.esa.int/ activity/thematic-exploitation-platform-teps-4319 (Retrieved: 20.03.2024).

Glaessgen, E. & Stargel, D. (2012) The digital twin paradigm for future NASA and US Air Force vehicles. 53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference 20th AIAA/ASME/AHS Adaptive Structures Conference 14th AIAA.

Oxoli, D., Cedeno Jimenez, J. R., Capizzi, E., Brovelli, M. A., Siciliani de Cumis, M., Sacco, P., & Tapete, D. (2023) QGIS and Open Data Cube

applications for Local Climate Zones analysis leveraging PRISMA hyperspectral satellite data. Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.,

XLVIII-1/W2-2023, 111–116, https://doi.org/10.5194/isprs-archives-XLVIII-1-W2-2023-111-2023

Stewart, I. D. & Oke, T. R. (2012) Local climate zones for urban temperature studies. Bulletin of the American Meteorological Society 93, 12, 1879–1900, https://doi.org/10.1175/BAMS-D-11-00019.1

Vavassori, A., Brovelli, M. A., Capizzi, E., Venuti, G., Betti, B., Siciliani de Cumis, M., Sacco, P., & Tapete, D. (2023) Mapping Local Climate Zones

with multiple geodata and the Open Data Cube: insights of domain user requirements and outlooks of the LCZ-ODC project. Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XLVIII-1/W2-2023, 581–587,

https://isprsarchives.copernicus.org/articles/XLVIII-1-W2-2023/581/2023/, 2023

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Pubblicato

2024-04-30

Come citare

Tapete, D. (2024). Dati satellitari di osservazione della Terra, strumenti digitali e città sostenibili. GEOmedia, 28(1). Recuperato da https://mediageo.it/ojs/index.php/GEOmedia/article/view/1990

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