Litcius/Paper detail

Discontinuity set extraction from 3D point clouds obtained by UAV Photogrammetry in a rockfall site

Murat Yakar, Ali̇ Ulvi̇, Abdurahman Yasin Yiğit, Aydın Alptekin

2022Survey Review46 citationsDOIOpen Access PDF

Abstract

Rockfall event is common on rocky terrain, and it threatens people. Recent advances in remote sensing technologies allow us to model the terrain with high accuracy and resolution. In this study, we show the application of modeling a rockfall site in three-dimensional (3D) using an unmanned aerial vehicle. The acquisition of information about discontinuities in the rock masses using 3D point clouds is vital to characterize rockfall dynamics. We obtained 3D spatial information and point clouds of a rocky slope from acquired images. We extracted 10 discontinuity sets from the 3D model as they have significant effects on the failure mechanism. Details in mapping discontinuities have improved significantly with the help of point clouds. The results are beneficial for modeling the terrain of inaccessible areas with high resolution and obtaining information from those areas. This paper shows how can point cloud analysis be applied to characterize discontinuity sets.

Topics & Concepts

RockfallPoint cloudClassification of discontinuitiesDiscontinuity (linguistics)TerrainPhotogrammetryGeologyRemote sensingPoint (geometry)Digital elevation modelComputer scienceLandslideGeographyComputer visionGeomorphologyGeometryCartographyMathematicsMathematical analysis3D Surveying and Cultural HeritageRemote Sensing and LiDAR ApplicationsLandslides and related hazards