UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria)

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in einem KonferenzbandForschungBegutachtung

Abstract

Three major Holocene rock avalanches have sculpted the morphology of Mount Pletzachkogel (Tyrol, Austria), and rock fall processes continue to show recent activity. Coalescing sets of discontinuities and block moulds exposed in the steep and rugged limestone cliffs exemplify the broad spectrum of rotational and translational block failure modes to which the mountain is prone. As personnel safety concerns strongly limit the ability to access the 200 m high rock cliffs to make traditional structural field measurements, Unmanned Aerial Vehicle (UAV) photogrammetric surveys were performed with a compact portable multicopter. The UAV survey provided a georeferenced point cloud and Digital Terrain Model of sufficient resolution and accuracy to permit efficient extraction of structural geologic measurements by using different open source software packages. This research focuses on comparing discontinuity measurements extracted from the point cloud using manual, semi-automated, and automated techniques, to field measurements made with a geologic compass. The overall workflow of digital image processing and related structural measurement extraction is described, together with data validation procedures. The workflow described herein provides an efficient means for obtaining comprehensive and accurate data sets that mitigate personnel access constraints, are fully auditable and archivable. With increased applications of UAVs for geologic mapping and documentation, such procedures are sure to see rapidly increasing deployment, particularly in alpine terrain.
Originalspracheenglisch
Titel IAEG/AEG Annual Meeting Proceedings
Redakteure/-innenAbdul Shakoor, Kerry Cato
ErscheinungsortCham
Herausgeber (Verlag)Springer
Seiten317-323
Band1
ISBN (elektronisch)978-3-319-93124-1
ISBN (Print)978-3-319-93123-4
DOIs
PublikationsstatusVeröffentlicht - 2019
Veranstaltung2018 IAEG/AEG Annual Meeting - San Francisco, USA / Vereinigte Staaten
Dauer: 17 Sep 201821 Sep 2018

Konferenz

Konferenz2018 IAEG/AEG Annual Meeting
LandUSA / Vereinigte Staaten
OrtSan Francisco
Zeitraum17/09/1821/09/18

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cliff
discontinuity
rock avalanche
digital terrain model
digital image
image processing
rock
limestone
Holocene
safety
software
mountain
vehicle
documentation

Dies zitieren

Erharter, G. H., Kieffer, D. S., & Prager, C. (2019). UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria). in A. Shakoor, & K. Cato (Hrsg.), IAEG/AEG Annual Meeting Proceedings (Band 1, S. 317-323). Cham: Springer. https://doi.org/10.1007/978-3-319-93124-1_39

UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria). / Erharter, Georg Hermann; Kieffer, Daniel Scott; Prager, Christoph.

IAEG/AEG Annual Meeting Proceedings. Hrsg. / Abdul Shakoor; Kerry Cato. Band 1 Cham : Springer, 2019. S. 317-323.

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in einem KonferenzbandForschungBegutachtung

Erharter, GH, Kieffer, DS & Prager, C 2019, UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria). in A Shakoor & K Cato (Hrsg.), IAEG/AEG Annual Meeting Proceedings. Bd. 1, Springer, Cham, S. 317-323, San Francisco, USA / Vereinigte Staaten, 17/09/18. https://doi.org/10.1007/978-3-319-93124-1_39
Erharter GH, Kieffer DS, Prager C. UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria). in Shakoor A, Cato K, Hrsg., IAEG/AEG Annual Meeting Proceedings. Band 1. Cham: Springer. 2019. S. 317-323 https://doi.org/10.1007/978-3-319-93124-1_39
Erharter, Georg Hermann ; Kieffer, Daniel Scott ; Prager, Christoph. / UAV-Based Discontinuity Analyses and Rock Fall Source Mapping in Alpine Terrain (Pletzachkogel/Tyrol/Austria). IAEG/AEG Annual Meeting Proceedings. Hrsg. / Abdul Shakoor ; Kerry Cato. Band 1 Cham : Springer, 2019. S. 317-323
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abstract = "Three major Holocene rock avalanches have sculpted the morphology of Mount Pletzachkogel (Tyrol, Austria), and rock fall processes continue to show recent activity. Coalescing sets of discontinuities and block moulds exposed in the steep and rugged limestone cliffs exemplify the broad spectrum of rotational and translational block failure modes to which the mountain is prone. As personnel safety concerns strongly limit the ability to access the 200 m high rock cliffs to make traditional structural field measurements, Unmanned Aerial Vehicle (UAV) photogrammetric surveys were performed with a compact portable multicopter. The UAV survey provided a georeferenced point cloud and Digital Terrain Model of sufficient resolution and accuracy to permit efficient extraction of structural geologic measurements by using different open source software packages. This research focuses on comparing discontinuity measurements extracted from the point cloud using manual, semi-automated, and automated techniques, to field measurements made with a geologic compass. The overall workflow of digital image processing and related structural measurement extraction is described, together with data validation procedures. The workflow described herein provides an efficient means for obtaining comprehensive and accurate data sets that mitigate personnel access constraints, are fully auditable and archivable. With increased applications of UAVs for geologic mapping and documentation, such procedures are sure to see rapidly increasing deployment, particularly in alpine terrain.",
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AB - Three major Holocene rock avalanches have sculpted the morphology of Mount Pletzachkogel (Tyrol, Austria), and rock fall processes continue to show recent activity. Coalescing sets of discontinuities and block moulds exposed in the steep and rugged limestone cliffs exemplify the broad spectrum of rotational and translational block failure modes to which the mountain is prone. As personnel safety concerns strongly limit the ability to access the 200 m high rock cliffs to make traditional structural field measurements, Unmanned Aerial Vehicle (UAV) photogrammetric surveys were performed with a compact portable multicopter. The UAV survey provided a georeferenced point cloud and Digital Terrain Model of sufficient resolution and accuracy to permit efficient extraction of structural geologic measurements by using different open source software packages. This research focuses on comparing discontinuity measurements extracted from the point cloud using manual, semi-automated, and automated techniques, to field measurements made with a geologic compass. The overall workflow of digital image processing and related structural measurement extraction is described, together with data validation procedures. The workflow described herein provides an efficient means for obtaining comprehensive and accurate data sets that mitigate personnel access constraints, are fully auditable and archivable. With increased applications of UAVs for geologic mapping and documentation, such procedures are sure to see rapidly increasing deployment, particularly in alpine terrain.

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