2015
DOI: 10.1016/j.enggeo.2015.05.012
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Identifying rock slope failure precursors using LiDAR for transportation corridor hazard management

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Cited by 114 publications
(78 citation statements)
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“…Given the development of spatially contiguous rockfall scars that has been observed in this setting (Fig. 11) and in other studies (Rosser et al, 2007Stock et al, 2012;Kromer et al, 2015a;Rohmer and Dewez, 2015;Royán et al, 2015), the creation of magnitude-frequency distributions from near-continuous monitoring has the potential to generate improved understanding of the underlying mechanisms of rockfall failure.…”
Section: Implications For Rockfall Magnitude-frequencymentioning
confidence: 99%
See 1 more Smart Citation
“…Given the development of spatially contiguous rockfall scars that has been observed in this setting (Fig. 11) and in other studies (Rosser et al, 2007Stock et al, 2012;Kromer et al, 2015a;Rohmer and Dewez, 2015;Royán et al, 2015), the creation of magnitude-frequency distributions from near-continuous monitoring has the potential to generate improved understanding of the underlying mechanisms of rockfall failure.…”
Section: Implications For Rockfall Magnitude-frequencymentioning
confidence: 99%
“…In practice, defining this timescale a priori is challenging and requires the ability to monitor the rock face over a sustained period in (near) real time. For rockfalls, high-resolution monitoring also shows evolution of failures through time, with event sequences and patterns related to the incremental growth of scars (Rosser et al, 2007Stock et al, 2012;Kromer et al, 2015a;Rohmer and Dewez, 2015;Royán et al, 2015). Barlow et al (2012) showed that a monitoring interval of 19 months underestimated the frequency distribution of small rockfall events, which coalesced into or were superimposed by larger rockfalls.…”
Section: Temporal Resolution Of Monitoringmentioning
confidence: 99%
“…Techniques such as the LiDAR equipment, digital photogrammetry and radar interferometry provide not only the analysis temporal patterns of the precursors before a large slope failure but also the spatial one, thus allowing the definition of the size of the unstable volumes (Oppikofer et al 2008;Ferrero et al 2011;Stock et al 2012;Royán et al 2014Royán et al , 2015. Periodic surveys using TSL have shown an increase of the rate of small-size rockfall events prior to the failure of large masses, which are mostly concentrated in the detachment zone (Rosser et al 2007;Royán et al 2014;Kromer et al 2015). The above observations are accompanied with an increase in the displacements of the moving mass away from a background level.…”
Section: Rockfall Predictionmentioning
confidence: 99%
“…In complex terrain, it is unreasonable to expect change to occur in a single dimension or along a common direction. An example of a complex rock slope is White Canyon, in Western Canada, where both movement of talus and rock slope deformation are occurring in multiple directions and the slope is geomorphologically complex [11].…”
Section: Theoretical Frameworkmentioning
confidence: 99%
“…In the hazard community, analysis of point cloud representations of topography have been used to study rock slope failures [1][2][3][4], large scale landslides [5][6][7], changes in permafrost terrain [8,9] and have been applied for assessment and monitoring of geohazards along transportation corridors [10,11], for example. In the geosciences and geomorphology, studies utilizing point clouds have included the study of fault zone deformation [12], mapping lithology [13], quantification of surface change in complex debris flow and river topography [14,15], the study of mass balance in glaciers [16] and the study of small-scale processes in arctic catchments [17], to name a few.…”
Section: Introductionmentioning
confidence: 99%