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Journal Articles


  1. Weinke, E., Hölbling, D., Albrecht, F., Friedl, B., 2017. Land@Slide-Hangrutschungsservice ‒ Potenziale für einen Copernicus-Downstream-Service. AGIT ‒ Journal für Angewandte Geoinformatik, 3-2017, 343-352.

  2. Hölbling, D., Eisank, C., Albrecht, F., Vecchiotti, F., Friedl, B., Weinke, E., Kociu, A., 2017. Comparing Manual and Semi-Automated Landslide Mapping Based on Optical Satellite Images from Different Sensors. Geosciences, 7(2), 37.

  3. Hölbling, D., Betts, H., Spiekermann, R., Phillips, C., 2016. Identifying Spatio-Temporal Landslide Hotspots on North Island, New Zealand, by Analyzing Historical and Recent Aerial Photography. Geosciences, 6, 48.

  4. Weinke, E., Albrecht, F., Hölbling, D., Eisank, C., Vecchiotti, F., 2016. Verfahren zur Implementierung eines Kartierungsdienstes für Rutschungen auf Basis von Fernerkundungsdaten und Nutzereinbindung. AGIT ‒ Journal für Angewandte Geoinformatik, 2-2016, 46-55.

Book Chapters


  1. Albrecht, F., Hölbling, D., Weinke, E., Eisank, C., 2016. User requirements for an Earth Observation (EO)-based landslide information web service. In: S. Aversa, L. Cascini, L. Picarelli and C. Scavia (Eds.), Landslides and Engineered Slopes. Experience, Theory and Practice. CRC Press, pp. 301-308.

Conference Proceedings


  1. Albrecht, F., Jemec Auflič, M., Hölbling, D., 2018. Visibility analysis for planning landslide alert systems with webcams. Jemec Auflic, M., Mikos, M., Verbovsek, T. (eds.), Advances in Landslide Research. Proceedings of the 3rd Regional Symposium on Landslides in the Adriatic-Balkan Region, Ljubljana, Slovenia, 11-13 October 2017, 53-58.

  2. Hölbling, D., Weinke, E., Albrecht, F., Eisank, C., Vecchiotti, F., Friedl, B., Osberger, A., Kociu, A., 2018. A web service for landslide mapping based on Earth Observation data. Jemec Auflic, M., Mikos, M., Verbovsek, T. (eds.), Advances in Landslide Research. Proceedings of the 3rd Regional Symposium on Landslides in the Adriatic-Balkan Region, Ljubljana, Slovenia, 11-13 October 2017, 137-142.

  3. Albrecht, F., Hölbling, D., Taferner, D., Jemec Auflič, M., 2018. Testing the feasibility of webcam-based landslide alert systems. Geophysical Research Abstracts, Vol. 20, EGU General Assembly 2018-17412, Vienna, Austria.

  4. Taferner, D., Albrecht, F., 2018. Optimizing visual coverage - a case study for webcam-based monitoring for landslide alertGeophysical Research Abstracts, Vol. 20, EGU General Assembly 2018-17478, Vienna, Austria.

  5. Weinke, E., Hölbling, D., Albrecht, F., Friedl, B., 2018. Interactive web services for landslide and habitat monitoring. 6th Symposium for Research in Protected Areas - Conference Volume. Salzburg, Austria, 2-3 November 2017, pp. 711-713.

  6. Albrecht, F., Hölbling, D., Friedl, B., 2017. Assessing the agreement between EO-based semi-automated landslide maps with fuzzy manual landslide delineation. Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XLII-2/W7, pp. 439-446.

  7. Vecchiotti, F., Peduto, D., Strozzi, T., 2017. Multi-sensor a Priori PSI Visibility Map for Nationwide Landslide Detection in Austria. In: Mikos, M., Tiwari, B., Yin, Y., Sassa, K. (Eds.), Advancing Culture of Living with Landslides. World Landslide Forum 2017. Springer, Cham, pp. 45-52. 

  8. Albrecht, F., Weinke, E., Eisank, C., Vecchiotti, F., Hölbling, D., Friedl, B., Kociu, A., 2017. Validating the usability of an interactive Earth Observation based web service for landslide investigation. Geophysical Research Abstracts, Vol. 19, EGU General Assembly 2017-1407, Vienna, Austria.

  9. Amato, G., Eisank, C., Albrecht, F., 2017. A simple and unsupervised semi-automatic workflow to detect shallow landslides in Alpine areas based on VHR remote sensing data. Geophysical Research Abstracts, Vol. 19, EGU General Assembly 2017-942-3, Vienna, Austria.

  10. Hölbling, D., Weinke, E., Albrecht, F., Eisank, C., Vecchiotti, F., Friedl, B., Kociu, A., 2017. Towards an EO-based Landslide Web Mapping and Monitoring Service. Geophysical Research Abstracts, Vol. 19, EGU General Assembly 2017-1185, Vienna, Austria.

  11. Weinke, E., Hölbling, D., Albrecht, F., Friedl, B., 2017. Concept of a spatial data infrastructure for web-mapping, processing and service provision for geo-hazards. Geophysical Research Abstracts, Vol. 19, EGU General Assembly 2017-8641, Vienna, Austria.

  12. Eisank, C., Geisler, T., Kleindienst, H., Albrecht, F., Hölbling, D., 2016. UAV-basierte Erfassung und Dokumentation von Rutschungen im alpinen Gelände. AHORN 2016 - Der Alpenraum und seine Herausforderung an Orientierung, Navigation und Informationsaustausch, Garmisch-Partenkirchen, Germany, 17-18 November.

  13. Weinke, E., Albrecht, F., Hölbling, D., Eisank, C., 2016. Web-basierter semi-automatisierter Kartierungsdienst für Hangrutschungen basierend auf Fernerkundungsdaten. AHORN 2016 - Der Alpenraum und seine Herausforderung an Orientierung, Navigation und Informationsaustausch, Garmisch-Partenkirchen, Germany, 17-18 November.

  14. Vecchiotti, F., Tilch, N., Haberler, A., 2016. Detection of shallow landslides, triggered by exceptional meteorological events, by means of high resolution multispectral remote sensing: examples based on open data from western Austria. In: Ortner, H. [Ed] (2016). Abstract Volume of GeoTirol 2016 - Annual Meeting of DGGV and PANGEO Austria, Innsbruck, Austria, 25-28 September.

  15. Eisank, C., Hölbling, D., Albrecht, F., 2016. Semi-automated landslide mapping based on multispectral satellite imagery: two Austrian case studies from the Land@Slide project. In: Ortner, H. [Ed] (2016). Abstract Volume of GeoTirol 2016 - Annual Meeting of DGGV and PANGEO Austria, Innsbruck, Austria, 25-28 September.

  16. Koller, M., Robson, B.A., Hölbling, D., 2016. Quantifying and visualizing flood erosional processes using multi-temporal LiDAR data. Geological Society of America - Abstracts with Programs, Vol. 48 (7), GSA Annual Meeting, Denver, USA, 25-28 September, Paper No. 158-4.

  17. Hölbling, D., Koller, M., Albrecht, F., Robson, B.A., Eisank, C., Weinke, E., 2016. Object-based time series analysis for landslide change detection using optical remote sensing imagery: Examples from Austria and Norway. Proceedings of the 2nd Virtual Geoscience Conference, Bergen, Norway, 21-23 September, pp. 138-139.

  18. Hölbling, D., Betts, H., Spiekermann, R., Phillips, C., 2016. Semi-automated landslide mapping from historical and recent aerial photography. Proceedings of the 19th AGILE Conference on Geographic Information Science, Helsinki, Finland, 14-17 June, 5 p.

  19. Hölbling, D., Eisank, C., Friedl, B., Weinke, E., Kleindienst, H., Kociu, A., Vecchiotti, F., Albrecht, F., 2016. EO-based landslide mapping: from methodological developments to automated web-based information delivery.13th Interpraevent Congress 2016 - Extended Abstracts, Lucerne, Switzerland, May 30 – June 02 2016, pp. 102-103.

  20. Vecchiotti F., Tilch, N., Haberler A., 2016. The use of SPOT5 (take5) for landslides detection in preparation for the arrival of SENTINEL-2 satellite. ESA Living Planet Symposium, Prague, Czech Republic, 09-12 May.

  21. Albrecht, F., Hölbling, D., Eisank, C., Weinke, E., Vecchiotti, F., Kociu, A., 2016. Communicating Earth Observation (EO)-based landslide mapping capabilities to practitioners. Geophysical Research Abstracts, Vol. 18, EGU General Assembly 2016-903, Vienna, Austria.

  22. Hölbling, D., Eisank, C., Friedl, B., Chang, K.-T., Tsai, T.-T., Pedersen, G.B.M., Betts, H., Cigna, F., Chiang, S.-H., Robson, B.A., Bianchini, S., Füreder, P., Albrecht, F., Spiekermann, R., Weinke, E., Blaschke, T., Phillips, C., 2016. Object-based Landslide Mapping: Examples, Challenges and Opportunities. Geophysical Research Abstracts, Vol. 18, EGU General Assembly 2016-520, Vienna, Austria.