Recognition of Drainage Tunnels During Glacier Lake Outburst Events From Terrestrial Image Sequences

Schwalbe, E.; Koschitzki, R.; Maas, Hans‐Gerd

doi:10.5194/isprsarchives-xli-b8-537-2016

Cited by 2 publications

(1 citation statement)

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“…If the monoscopic setup of the image acquisition is designed carefully, even metric measurements with high accuracy are possible, e.g. measuring velocity fields for glaciers (Maas et al , ) or recognizing drainage tunnels after glacial lake outburst flood (GLOF) events (Schwalbe et al , ).…”

Section: Introductionmentioning

confidence: 99%

Time lapse structure‐from‐motion photogrammetry for continuous geomorphic monitoring

Eltner

Kaiser

Abellán

et al. 2017

Earth Surf Processes Landf

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Recent advances are made in earth surface reconstruction with high spatial resolution due to SfM photogrammetry. High flexibility of data acquisition and high potential of process automation allows for a significant increase of the temporal resolution, as well, which is especially interesting to assess geomorphic changes. Two case studies are presented where 4D reconstruction is performed to study soil surface changes at 15 seconds intervals: (a) a thunderstorm event is captured at field scale and (b) a rainfall simulation is observed at plot scale. A workflow is introduced for automatic data acquisition and processing including the following approach: data collection, camera calibration and subsequent image correction, template matching to automatically identify ground control points in each image to account for camera movements, 3D reconstruction of each acquisition interval, and finally applying temporal filtering to the resulting surface change models to correct random noise and to increase the reliability of the measurement of signals of change with low intensity. Results reveal surface change detection with cm‐ to mm‐accuracy. Significant soil changes are measured during the events. Ripple and pool sequences become obvious in both case studies. Additionally, roughness changes and hydrostatic effects are apparent along the temporal domain at the plot scale. 4D monitoring with time‐lapse SfM photogrammetry enables new insights into geomorphic processes due to a significant increase of temporal resolution. Copyright © 2017 John Wiley & Sons, Ltd.

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Section: Introductionmentioning

confidence: 99%