2018
DOI: 10.3390/geosciences8080274
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Cryomorphological Topographies in the Study of Ice Caves

Abstract: The current interest in ice caves requires that their varied manifestations be known as accurately as possible in view of their responses to a global change and also to their great potential as paleoenvironmental witnesses. This phenomenon has been known about for a long time but is still scarcely studied from the point of view of its cryological values and the evolution and distribution of many of their morphologies. For this, the development of cryomorphological topographies from traditional techniques to ge… Show more

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Cited by 10 publications
(8 citation statements)
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“…16c-7) Fig. 20 Average accuracy corresponding to different slicing thresholds specific angle. To improve this situation, the DOT-X handheld scanner combining photogrammetry and laser scanners was used to collect data around the rockery, and then the raw point cloud data were preprocessed by pose adjustment, noise removal, and hole repair to generate high-density complete point clouds.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…16c-7) Fig. 20 Average accuracy corresponding to different slicing thresholds specific angle. To improve this situation, the DOT-X handheld scanner combining photogrammetry and laser scanners was used to collect data around the rockery, and then the raw point cloud data were preprocessed by pose adjustment, noise removal, and hole repair to generate high-density complete point clouds.…”
Section: Discussionmentioning
confidence: 99%
“…For example, in cave extraction, most rockery digital results lack internal data. Cave extraction algorithms are commonly proposed for ice caves or karstic caves by using laser scanners to study ice morphology caves [20] or gravity measurements to analyze karstic cave volumes and positions [21]. However, these methods are not applicable to rockery caves due to their small size.…”
Section: Introductionmentioning
confidence: 99%
“…Terrestrial Laser Scanning (TLS) has been used to map the complex, fine (millimetre) scale morphology of bedrock channels (e.g., Lague et al, 2013) and inaccessible areas of cave systems (e.g., Buchroithner et al, 2009;Gallay et al, 2015;Oludare Idrees and Pradhan, 2016). TLS has also been used to yield high-resolution digital elevation models of glacier surfaces (e.g., Hopkinson, 2004;Schwalbe et al, 2008;Fischer et al, 2016), to measure and monitor ice surface changes in ice-coated bedrock caves (Gašinec et al, 2012;Gómez-Lende and Sánchez-Fernández, 2018) and, recently, to reconstruct digitally an englacial channel reach (Kamintzis et al, 2018). As an approach, TLS offers an improvement on traditional speleological surveying techniques through increasing the level and resolution of recorded detail markedly, and reducing time spent in high-risk environments owing to more rapid (minutes to hours) data acquisition (Heritage and Large, 2009).…”
Section: Introductionmentioning
confidence: 99%
“…The cave surface can be modelled from the point cloud as a 3-D polygonal mesh or a 2.5-D raster surface, which was demonstrated in Gallay et al (2016). Applications of TLS in non-glaciated caves are diverse, comprising the field of geomorphology (Cosso et al, 2014;Silvestre et al, 2014;Idrees and Pradhan, 2016;Fabbri et al, 2017;De Waele et al, 2018), studies on light conditions (Hoffmeister et al, 2014), archaeology (Gonzalez-Aguilera et al, 2009;Rüther et al, 2009;Lerma et al, 2010), and projects aiming to increase awareness and tourism (Buchroithner et al, 2011(Buchroithner et al, , 2012. However, the use of TLS in ice caves is possible but more challenging than in non-ice or exterior environments due to the slippery surface, harsh climate, and physical properties of ice, which absorbs a considerable portion of the shortwave infrared energy typically used by the laser scanner (Kamintzis et al, 2018).…”
Section: Introductionmentioning
confidence: 99%