TY - SER ID - hmmerle2014pcom T1 - Point clouds of measurements in the Dechen Cave near Iserlohn, Germany AU - Hämmerle, Martin AU - Höfle, Bernhard AU - Fuchs, Johannes AU - Schröder-Ritzrau, Andrea AU - Vollweiler, Nicole AU - Frank, Norbert PY - 2014/03/12/ T2 - Supplement to: Hämmerle, M et al. (2014): Comparison of kinect and terrestrial LiDAR capturing natural karst cave 3-D objects. IEEE Geoscience and Remote Sensing Letters, 11(11), 1896-1900, https://doi.org/10.1109/LGRS.2014.2313599 PB - PANGAEA DO - 10.1594/PANGAEA.830567 UR - https://doi.org/10.1594/PANGAEA.830567 N2 - Modeling natural phenomena from 3D information enhances our understanding of the environment. Dense 3D point clouds are increasingly used as highly detailed input datasets. In addition to the capturing techniques of point clouds with LiDAR, low-cost sensors have been released in the last few years providing access to new research fields and facilitating 3D data acquisition for a broader range of applications. This letter presents an analysis of different speleothem features using 3D point clouds acquired with the gaming device Microsoft® Kinect. We compare the Kinect sensor with terrestrial LiDAR reference measurements using the KinFu pipeline for capturing complete 3D objects (< 4m**3). The results demonstrate the suitability of the Kinect to capture flowstone walls and to derive morphometric parameters of cave features. Although the chosen capturing strategy (KinFu) reveals a high correlation (R2=0.92) of stalagmite morphometry along the vertical object axis, a systematic overestimation (22% for radii and 44% for volume) is found. The comparison of flowstone wall datasets predominantly shows low differences (mean of 1 mm with 7 mm standard deviation) of the order of the Kinect depth precision. For both objects the major differences occur at strongly varying and curved surface structures (e.g. with fine concave parts). ER -