Publications
PUBLICATIONS TO INTERNATIONAL JOURNALS AND BOOK CHAPTERS
Cohen, J., Lemmetyinen, J., Jorge Ruiz, J., Rautiainen, K., Ikonen, J., Kontu, A., Pulliainen, J., 2024. Detection of soil and canopy freeze/thaw state in the boreal region with L and C Band Synthetic Aperture Radar. Remote Sensing of Environment 305, 114102. https://doi.org/10.1016/j.rse.2024.114102
Dermosinoglou, A., Detsikas, S.E., Petropoulos, G., Fratsea, L.M., Papadopoulos, A., 2023. Multitemporal monitoring of Impervious Surface Areas (ISA) changes in an Arctic setting, using ML, Remote Sensing data and GEE. Google Earth Engine and Artificial Intelligence for Earth Observation Algorithms for Sustainable Applications.
Hu, J., Wu, J., Petropoulos, G.P., Bao, Y., Liu, J., Lu, Q., Wang, F., Zhang, H., Liu, H., 2023. Temperature and Relative Humidity Profile Retrieval from Fengyun-3D/VASS in the Arctic Region Using Neural Networks. Remote Sensing 15, 1648. https://doi.org/10.3390/rs15061648
Petropoulos, G.P., Karathanassi, V., Karamvasis, K., Dermosinoglou, A., Detsikas, S.E., 2024a. Chapter 5 – Understanding and monitoring the dynamics of Arctic permafrost regions under climate change using Earth Observation and cloud computing: The contribution of EO-PERSIST project, in: Petropoulos, G.P., Chalkias, C. (Eds.), Geographical Information Science. Elsevier, pp. 91–108. https://doi.org/10.5281/zenodo.10435950
Petropoulos, G.P., Petsini, T., Detsikas, S.E., 2024b. Geoinformation Technology in Support of Arctic Coastal Properties Characterization: State of the Art, Challenges, and Future Outlook. Land 13, 776. https://doi.org/10.3390/land1306077
Sunita, Gupta, P.K., Petropoulos, G.P., Gusain, H.S., Sood, V., Gupta, D.K., Singh, S., Singh, A.K., 2023. Snow Cover Response to Climatological Factors at the Beas River Basin of W. Himalayas from MODIS and ERA5 Datasets. Sensors 23, 8387. https://doi.rg/10.3390/s23208387
Toumasi, P., Petropoulos, G.P., Detsikas, S.E., Kalogeropoulos, K., Tselos, N.G., 2024. Coastal Vulnerability Impact Assessment under Climate Change in the Arctic Coasts of Tromsø, Norway. Earth 5, 640–653. https://doi.org/10.3390/earth5040033
Coastal vulnerability Impact Assessent under Climate Change in the Arctic Coasts of Tromsø, Norway
Jorge Ruiz, J., Merkouriadi, I., Lemmetyinen, J., Cohen, J., Kontu, A., Nagler, T., Pulliainen, J., Praks, J., 2024. Comparing InSAR Snow Water Equivalent Retrieval Using ALOS2 With In Situ Observations and SnowModel Over the Boreal Forest Area. IEEE Transactions on Geoscience and Remote Sensing 62, 1–14. https://doi.org/10.1109/TGRS.2024.3439855
Achmakidou, E., Petropoulos, G. P., Karkani, A., Evelpidou, N., Detsikas, S. E., & Tselos, G. N. 2025. A Geoinformation-Based Approach for Mapping Coastal Vulnerability in Sweden. Water, 17(20), 3027. https://doi.org/10.3390/w17203027
A Geoinformation-Based Approach for Mapping Coastal Vulnerability in Sweden
Kyrveis, C., Petropoulos, G. P., & Varvatsouli, D. 2025. Coastal Vulnerability Assessment in Svalbard region of the Arctic exploiting geoinformation technologies and a cloud-based platform. Remote Sensing Applications: Society and Environment, 40, 101752. https://doi.org/10.1016/j.rsase.2025.101752
Liaskos, A., Petropoulos, G. P., Evelpidou, N., & Detsikas, S. E. 2025. CVIc: A web platform for automated Coastal Vulnerability Index-based assessment. Environmental Modelling & Software, 194, 106705. https://doi.org/10.1016/j.envsoft.2025.106705
A web platform for automated Coastal Vulnerability Index-based assessment
Lymperopoulou, K., Petropoulos, G. P., Karkani, A., Evelpidou, N., & Detsikas, S. E. 2025. Assessing Coastal Vulnerability in Finland: A Geoinformation-Based Approach Using the CVI. Land, 14(9), 1741. https://doi.org/10.3390/land14091741
Assessing Coastal Vulnerability in Finland: A Geoinformation-Based Approach Using the CVI
Tita, E., Petropoulos, G. P., & Varvatsouli, D. 2025. Exploring the relationships between coastal vulnerability and socio-economic variables in the context of climate change using geoinformatics for the region of Longyearbyen, Svalbard. Remote Sensing Applications: Society and Environment, 39, 101642. https://doi.org/10.1016/j.rsase.2025.10164
PRESENTATIONS AT CONFERENCES
EO-PERSIST consortium collaborated in preparing a poster titled «EO-PERSIST: a Cloud-based Remote Sensing Data System for Promoting Research and Socioeconomic Studies in Arctic Environments» and HUA presented it at the 42nd EARSeL symposium at Bucharest, Romania (access on: https://zenodo.org/records/8143140) [poster]
UB participated on the International Conference of Environment at a CrossrOads: SMART approaches for a sustainable Future – ECOSMART organized on 17/11/2023 in Bucharest (https://conference.geo.unibuc.ro/) [poster]
Toumasi P., Detsikas S., DiCaprio G., Chersish M., Sandric I., Tselos N., Gotsopoulos I., Petropoulos G. P., Coastal vulnerability and socioeconomic impact assessment under climate change in the Arctic coasts, 5ᵗʰ Congress of Geographical Information Systems and Spatial Analysis in Agriculture and Environment, May 21 – 22 – 23, 2024, Conference Center of Agricultural University of Athens, Greece
Karamvasis, K., Ruiz, J.J., Lemmetyinen, J., Karathanassi, V., Karantzalos, K., 2024. Enhancing Understanding of Snow Dynamics Using SAR Interferometric Observables: A Case Study in Sodankyla Forest, in: IGARSS 2024 – 2024 IEEE International Geoscience and Remote Sensing Symposium. Presented at the IGARSS 2024 – 2024 IEEE International Geoscience and Remote Sensing
Dermosinoglou, K., Detsikas, S.E., Fratsea, L.-M., Papadopoulos, A.G., DiCaprio, G., Petropoulos, G.P., 2024. Advancing Permafrost Monitoring: the EO-PERSIST Project; (No. EGU24-7885). Presented at the EGU24, Copernicus Meetings. https://doi.org/10.5194/egusphere-egu24-7885
Petropoulos, G.P., Karathanassi, V., Sandric, I., Sykas, D., Scholtze, M., Kubowicz, Ł., Carpio, G.D., Lemmetyinen, J., Chersich, M., Krischke, M., Detsikas, S.E., 2023. EO-PERSIST: a Cloud-based Remote Sensing Data System for Promoting Research and Socioeconomic Studies in Arctic Environments.
https://doi.org/10.5281/zenodo.8143140, Presented at: 42nd EARSeL Symposium
Lymperopoulou K., Karkani A., Evelpidou N., Petropoulos G. P., Detsikas S., Assessing coastal vulnerability in Finland: a geoinformation-based approach, ArcGIS Users Meeting of Greece – Cyprus 2025, October 22 – 23, 2025, Crowne Plaza Hotel, Athens, Greece.
Achmakidou E., Petropoulos G. P., Detsikas S., Tselos N., Karkani A., Evelpidou N., A geoinformation-based approach for mapping coastal vulnerability in Sweden, ArcGIS Users Meeting of Greece – Cyprus 2025, October 22 – 23, 2025, Crowne Plaza Hotel, Athens, Greece
Lymperopoulou K., Karkani A., Evelpidou N., Petropoulos G. P., Detsikas S., Assessing Coastal Vulnerability in Finland: A Geoinformation-Based Approach, IAG Regional Conference on Geomorphology, September 16 – 18, 2025, Timisoara, Romania
Achmakidou E., Petropoulos G. P., Karkani A., Evelpidou N., Detsikas S., Tselos N., A Geoinformation-Based Approach for Mapping Coastal Vulnerability in Sweden, IAG Regional Conference on Geomorphology, September 16 – 18, 2025, Timisoara, Romania.
Liaskos A., Petropoulos G.P., Evelpidou N., Detsikas S., CVIc: A Web Platform for Automated Coastal Vulnerability Index-based Assessment, IAG Regional Conference on Geomorphology – Timisoara, Romania, September 16 – 18, 2025.
Tselos G.-N., Detsikas S. E., Petropoulou K., Litke A., Petropoulos G. P., Developing State of the Art Web Cartography Tools to Evaluate the Socioeconomic Impact of Climate Change in the Arctic, 32ⁿᵈ International Cartographic Conference (ICC25), August 17–22, 2025, Vancouver, Canada
Newsletter
Do you want to keep up with EO-PERSIST?
Sign up to our newsletter to receive all news related to the project!
* By subscribing to the EO PERSIST newsletter you agree to our Privacy Policy
Twitter Feeds
Marina Vîrghileanu, an assistant professor at the University of Bucharest, is currently completing her secondment at YETITMOVES SRL in Pavia, Italy, as part of the EO-PERSIST project. Her work specifically centers on Task 3.1: Land Degradation.
2By providing precise geolocation information, GNSS facilitates the validation of SAR-derived measurements, such as surface displacement and ground deformation—key indicators of permafrost dynamics, particularly in relation to the seasonal freeze-thaw cycle of the active layer.
