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- Title
Identification of stable areas in unreferenced laser scans for automated geomorphometric monitoring.
- Authors
Wujanz, Daniel; Avian, Michael; Krueger, Daniel; Neitzel, Frank
- Abstract
Current research questions in the field of geomorphology focus on the impact of climate change on several processes subsequently causing natural hazards. Geodetic deformation measurements are a suitable tool to document such geomorphic mechanisms, e.g. by capturing a region of interest with terrestrial laser scanners which results in a so-called 3-D point cloud. The main problem in deformation monitoring is the transformation of 3-D point clouds captured at different points in time (epochs) into a stable reference coordinate system. In this contribution, a surface-based registration methodology is applied, termed the iterative closest proximity algorithm (ICProx), that solely uses point cloud data as input, similar to the iterative closest point algorithm (ICP). The aim of this study is to automatically classify deformations that occurred at a rock glacier and an ice glacier, as well as in a rockfall area. For every case study, two epochs were processed, while the datasets notably differ in terms of geometric characteristics, distribution and magnitude of deformation. In summary, the ICProx algorithm's classification accuracy is 70% on average in comparison to reference data.
- Subjects
GEOMORPHOLOGY; OPTICAL scanners; CLOUD computing
- Publication
Earth Surface Dynamics, 2018, Vol 6, Issue 2, p303
- ISSN
2196-6311
- Publication type
Article
- DOI
10.5194/esurf-6-303-2018