Journal Articles
- Robson, B.A., Hölbling, D., Nuth, C., Strozzi, T., Dahl, S.O., 2015. Decadal Scale Changes in Glacier Area in the Hohe Tauern National Park (Austria) Determined by Object-Based Image Analysis. Remote Sensing, 8(1), 67.
- Robson, B.A., Nuth, C., Dahl, S.O., Hölbling, D., Strozzi, T., Nielsen, P.R., 2015. Automated classification of debris-covered glaciers combining optical, SAR and topographic data in an object-based environment. Remote Sensing of Environment, 170, 372-387.
- Hölbling, D., Friedl, B., Eisank, C., 2015. An object-based approach for semi-automated landslide change detection and attribution of changes to landslide classes in northern Taiwan. Earth Science Informatics, 8 (2), 327-335.
- Blaschke, T., Feizizadeh, B. and Hölbling, D., 2014. Object-Based Image Analysis and Digital Terrain Analysis for Locating Landslides in the Urmia Lake Basin, Iran. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing (JSTARS), 7 (12), 4806-4817.
- Eisank, C., Hölbling, D., Friedl, B., Chen, Y.-C. and Chang, K.-T., 2014. Expert knowledge for object-based landslide mapping in Taiwan. South-Eastern
European Journal of Earth Observation and Geomatics, Special Thematic
Issue: GEOBIA 2014 - Advancements, trends and challenges, 5th Geographic
Object-Based Image Analysis Conference, 21-24 May, Thessaloniki, Greece, 3(2S), 347-350.
- Hölbling, D., Füreder, P., Antolini, F., Cigna, F., Casagli, N. and Lang, S.,
2012. A semi-automated object-based approach for landslide detection validated by Persistent Scatterer Interferometry measures and landslide inventories. Remote Sensing 4 (5): 1310-1336.
Conference Proceedings (including abstracts)
- Friedl, B. and Hölbling, D., 2015. Using SAR Interferograms and Coherence Images for Object-Based Delineation of Unstable Slopes. FRINGE 2015 Workshop: Advances in the Science and Applications of SAR Interferometry and Sentinel-1 InSAR Workshop, 23-27 March, Frascati, Italy.
- Hölbling, D., Friedl, B., Eisank, C., Blaschke, T., 2015. Object-based landslide mapping on satellite images from different sensors. Geophysical Research Abstracts, Vol. 17, EGU General Assembly 2015-511, Vienna, Austria.
- Friedl, B., Hölbling, D., Eisank, C., Blaschke, T., 2015. Object-based landslide detection in different geographic regions. Geophysical Research Abstracts, Vol. 17, EGU General Assembly 2015-774, Vienna, Austria.
- Robson, B.A., Hölbling, D., Nuth, C., Dahl, S.O., 2015. Object-based glacier mapping in the Hohe Tauern Mountains of Austria. Geophysical Research Abstracts, Vol. 17, EGU General Assembly 2015-1201, Vienna, Austria.
- Plank, S., Hölbling, D., Eisank, C., Friedl, B., Martinis, S. Twele, A. 2015. Comparing object-based landslide detection methods based on polarimetric SAR and optical satellite imagery – a case study in Taiwan. 7th International Workshop on Science and Applications of SAR Polarimetry and Polarimetric Interferometry, POLinSAR 2015, 27-30 January, Frascati, Italy.
- Hölbling, D., Tsai, T.T., Eisank, C., Friedl, B., Shieh, C-L., Blaschke, T., 2014. Pixel-based and object-based landslide mapping: a methodological comparison. Geological Society of America Abstracts with Programs, Vol. 46 (6), GSA Annual Meeting, Vancouver, Canada, 19-22 October, p. 608.
- Eisank, C., Hölbling, D., Friedl, B., 2014. How well do terrain objects derived from pre-event digital elevation models spatially correspond to post-event landslides? Geological Society of America Abstracts with Programs, Vol. 46 (6), GSA Annual Meeting, Vancouver, Canada,19-22 October, p. 105.
- Hölbling, D., Friedl, B., Eisank, C., Tsai, T.T., 2014. An object-based method for mapping landslides on various optical satellite imagery - transferability and applicability across spatial resolutions. Proceedings of the RSPSoc Annual Conference, Aberystwyth, United Kindom, 2-5 September, 4 p.
- Hölbling, D., Friedl, B., Eisank, C., 2014. Semi-automated mapping of landslide changes in Taiwan by means of object-based image analysis. 5th International Workshop of the EARSeL Special Interest Group "Geological Applications" on Remote Sensing and Geology "Surveying the GEOsphere", Warsaw, Poland, 19-20 June, 6 p.
- Eisank, C., Hölbling, D., Friedl, B., Chen, Y.-C. and Chang, K.-T., 2014. Semi-automated extraction of landslides in Taiwan based on SPOT imagery and DEMs. Geophysical Research Abstracts, 16, EGU2014-13785, Vienna.
- Hölbling, D., Friedl, B. and Eisank, C., 2014. Object-based change detection for landslide monitoring based on SPOT imagery. Geophysical Research Abstracts, 16, EGU2014-10634, Vienna.
- Eisank, C., Hölbling, D. and Friedl, B., 2013. Terrain objects for landslide mapping. In: Manning, J. (Ed.): GRSG AGM 2013 - Status and developments in geological remote sensing. GRSG Annual Meeting, 9-11 December, Berlin, Germany.
- Kienberger, S., Füreder, P., Hölbling, D., Tiede, D., Contreras, D., Hagenlocher, M., Zeil, P., Lang, S., 2013. Von Geodaten zu nutzbarer Geoinformation - Entwicklung von und Anforderung an kartografische Produkte im Katastrophenmanagement-Zyklus. Workshop “Raum Zeit Risiko” der DGfK Kommission Risiken, Katastrophen, Sicherheit, 28 November, Munich, Germany.
- Eisank, C., Hölbling, D., Friedl, B. and Blaschke, T., 2013. Defining digital signatures of landslide types for semi-automated landslide mapping. 8th IAG International Conference on Geomorphology, 26-31 August, Paris, France.
- Hölbling, D., Eisank, C., Friedl, B. and Blaschke, T., 2013. Integrated semi-automated landslide delineation, classification and evaluation. Geophysical Research Abstracts, 15, EGU2013-4564-1, Vienna.
- Friedl, B., Hölbling, D. and Füreder, P., 2012. Combining TerraSAR-X and SPOT-5 data for object-based landslide detection. Geophysical Research Abstracts, 14, EGU2012-8663, Vienna.
- Hölbling, D., Füreder, P., Tsai, V. and Friedl, B., 2012. Automated object-based landslide and debris flow identification - a case study for supporting disaster management in Taiwan. Geophyiscal Research Abstracts, 14, EGU2012-7513, Vienna.
- Chang, K-T., Mondini, A. and Hölbling, D., 2012. An overview of techniques for mapping rainfall-triggered shallow landslides. AOGS 2012 Abstracts, Singapore.
- Hölbling, D. and Füreder, P., 2011. A (semi-) automated object-based approach for landslide detection based on SPOT-5 imagery and digital elevation data. Geophysical Research Abstracts, 13, EGU2011-6786, Vienna.
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