Surface classification based on multi-temporal airborne LiDAR intensity data in high mountain environments: a case study from Hintereisferner, Austria

The use of airborne LiDAR (Light detection and ranging), also called airborne laser scanning (ALS), has evolved into a standard technique for acquiring topographic information in regional scale. Beside the geometric attributes (x,y,z), the backscattered signal, often termed intensity or amplitude, i...

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Bibliographic Details
Main Authors:	Fritzmann, Patrick (Author) , Höfle, Bernhard (Author) , Vetter, Michael (Author) , Sailer, Rudolf (Author) , Stötter, Johann (Author) , Bollmann, Erik (Author)
Format:	Article (Journal)
Language:	English
Published:	Apr 1, 2011
In:	Zeitschrift für Geomorphologie Year: 2011, Volume: 55, Pages: 105-126
ISSN:	1864-1687
DOI:	10.1127/0372-8854/2011/0055S2-0048
Online Access:	Verlag, lizenzpflichtig, Volltext: https://doi.org/10.1127/0372-8854/2011/0055S2-0048 Verlag, lizenzpflichtig, Volltext: https://www.schweizerbart.de/papers/zfg_suppl/detail/55/75987/Surface_classification_based_on_multi_temporal_air?af=crossref
Author Notes:	Patrick Fritzmann, Bernhard Höfle, Michael Vetter, Rudolf Sailer, Johann Stötter & Erik Bollmann

Surface classification based on multi-temporal airborne LiDAR intensity data in high mountain environments: a case study from Hintereisferner, Austria by Fritzmann, Patrick (Author) , Höfle, Bernhard (Author) ,

in: Zeitschrift für Geomorphologie, 55 (2011), Suppl. 2, Seite 105-126

Article (Journal)

Surface classification based on multi-temporal airborne LiDAR intensity data in high mountain environments: a case study from Hintereisferner, Austria

Surface classification based on multi-temporal airborne LiDAR intensity data in high mountain environments: a case study from Hintereisferner, Austria by Fritzmann, Patrick (Author) , Höfle, Bernhard (Author) ,

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