ISSW2018 - Special Topic: Operational remote sensing – applications for snow and avalanches

Artikel aus einem Buch

200204774

O4.1 Radar remote sensing of mountain snow: a review of current ground-based, airborne and satellite-based approaches to monitoring snow properties; Hans-Peter Marshall; O4.2 Improvement of snow physical parameters retrieval using SAR data in the Arctic (Svalbard); Jean-Pierre Dedieu, Charlène Negrello, Hans-Werner Jacobi, Yannick Duguay,Julia Boike, Eric Bernard, Sebastian Westermann, Jean-Charles Gallet, Anna Wendleder; O4.3 Laser mapping of mountain snowpacks: enabling resilient management of water resources and avalanche hazard in a changing world; Jeffrey Deems; O4.4 Analysis of the spatio-temporal development of snow surface wetness in a high alpine area using terrestrial laser scanning reflectivity; Katharina Knoebl, Paul Schattan, Christine Fey, Volker Wichmann; O4.5 Improved snow parameters estimation through integration of simulated and remotely sensed snow cover information; Ludovica De Gregorio, Mattia Callegari, Carlo Marin, Marc Zebisch, Lorenzo Bruzzone, Begum Demir, Ulrich Strasser, Thomas Marke, Daniel Günther, Claudia Notarnicola; O4.6 Monitoring cornice dynamics and associated avalanche activity with a terrestrial laser scanner; Holt Hancock, Markus Eckerstorfer, Alexander Prokop, Jordy Hendrikx, Chris Borstad; O4.7 Mysnowmaps: operative high-resolution real-time snow mapping Matteo Dall’Amico, Stefano Endrizzi, Stefano Tasin; O4.9 Operational avalanche activity monitoring using radar satellites: From Norway to worldwide assistance in avalanche forecasting Markus Eckerstorfer, Hannah Vickers, Eirik Malnes, Karsten Müller, Rune Engeset,Tore Humstad; O4.10 Assimilation of modis observations of snowpack surface properties into one year of spatialized ensemble snowpack simulations at a field site in the French Alps; Bertrand Cluzet, Jesus Revuelto, Marie Dumont, Matthieu Lafaysse, Emmanuel Cosme; O4.11 Monitoring avalanche debris in the French mountains using SAR observations from Sentinel-1 satellites; Fatima Karbou, Maxime Lefort, Marie Dumont, Nicolas Eckert, Michael Deschatres,Rémy Martin, Cécile Coleou, Anne Dufour; O4.12 Operational Monitoring of Alpine Snow Cover within the European Copernicus Programme; Thomas Nagler, Helmut Rott, Gabriele Schwaizer, Johanna Nemec, Joanna Ossowska, Ursula Fasching; P4.1 Determining forest parameters for avalanche simulation using remote sensing data; Natalie Brožová, Peter Bebi, Jan-Thomas Fischer; P4.2 Where is the snow: validating a fractional-snow covered area parameterization for snow melt forecasting with satellite measurements; Nora Helbig, Mira Ehrler, Michael Schirmer, Tobias Jonas; P4.3 Near real-time mapping of snow conditions in remote high-mountain Himalaya; Tuomo Saloranta, Amrit Thapa, Kjetil Melvold, Knut Møen, Maxime Litt, Inka Koch; P4.4 Classification of snow anisotropic surfaces for mountainous terrain with mixed
vegetative cover using optical and thermal spectra from Landsat-8. Santiago Rodriguez, Pedro Rodriguez; P4.5 Using Time Lapse Photography to Document Terrain Preferences of Backcountry Skiers; Diana Saly, Jordy Hendrikx, Karl Birkeland, Stuart Challender, Jerry Johnson; P4.6 Simultaneous use of different techniques in assessment of spatial-temporal variability of the characteristics of snow cover; Sergey Sokratov, Yury Seliverstov, Anton Komarov, Andrey Entin, Aleksandr; Suchilin, Pavel Grebennikov, Alla Turchaninova, Marina Vladimirova; P4.9 Avalanche detection in Sentinel-1 radar images using convolutional neural networks ; Eirik Malnes, Per Egil Kummervold, Markus Eckerstorfer; P4.10 Regional scale statistical mapping of snow avalanche likelihood and ist combination with an optical remote sensing based avalanche detection approach – first attempts for the province of South Tyrol (Italy); Sarah Nolting, Carlo Marin, Stefan Steger, Stefan Schneiderbauer, Claudia Notarnicola, Marc Zebisch; P4.11 High resolution (spatial and temporal) terrestrial laser scanning in avalanche release areas; Benjamin Meier, Walter Steinkogler, Jeff Deems; P4.12 The use of SAR satellite observations to evaluate avalanche activities in the French Alps during remarkable episodes of the 2017-2018 season; Cécile Coleou, Fatima Karbou, Michael Deschartes, Rémy Martin, Anne Dufour,Nicolas Eckert, Gilles Charvet; P4.13 Spatial variability of snow depth using UAS technology: Study from Lirung Catchment; Dol Prasad Lamsal, Rijan B. Kayasth; P4.14 SfM-based 3D point clouds in determination of snow depth from highresolution UAS data as alternative methods: Is it possible to use? Remzi Eker, Abdurrahim Aydın, Yves Bühler, Andreas Stoffel; P4.15 Photogrammetric snow depth mapping: evaluation of different platforms and sensors; Lucie Eberhard, Andreas Stoffel, Robert Kenner, Yves Bühler; P4.16 Detecting snow depth change in avalanche path starting zones using unmanned aerial systems and structure from motion photogrammetry; Erich Peitzsch, Daniel Fagre, Jordy Hendrikx, Karl Birkeland