2020
DOI: 10.3390/ijgi9040248
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Detection of Levee Damage Based on UAS Data—Optical Imagery and LiDAR Point Clouds

Abstract: This paper presents a methodology for levee damage detection based on Unmanned Aerial System (UAS) data. In this experiment, the data were acquired from the UAS platform, which was equipped with a laser scanner and a digital RGB (Red, Green, Blue) camera. Airborne laser scanning (ALS) point clouds were used for the generation of the Digital Terrain Model (DTM), and images were used to produce the RGB orthophoto. The main aim of the paper was to present a methodology based on ALS and vegetation index from RGB o… Show more

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Cited by 12 publications
(9 citation statements)
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“…From the remaining point cloud, the two types of data were analyzed, and defects were identified. A methodology for monitoring and detecting defects in levees was developed by [99], based on multi-temporal LiDAR point clouds and RGB images. The LiDAR data was used to produce two differential Digital Terrain Models, and the elevation changes were identified.…”
Section: Retaining Wallsmentioning
confidence: 99%
“…From the remaining point cloud, the two types of data were analyzed, and defects were identified. A methodology for monitoring and detecting defects in levees was developed by [99], based on multi-temporal LiDAR point clouds and RGB images. The LiDAR data was used to produce two differential Digital Terrain Models, and the elevation changes were identified.…”
Section: Retaining Wallsmentioning
confidence: 99%
“…These outliers are marked as invalid and excluded from further analysis. The remaining points are clustered according to their Euclidean distance to separate the spalling far from the ideal cylinder from the giant cluster that corresponds to the intact surface [38].…”
Section: ) Cross Section Extractionmentioning
confidence: 99%
“…The software is one of the most popular programs used in photogrammetry (mainly in short-range photogrammetry) [53]. Aside from standard functionalities (photogrammetric triangulation [27], digital surface/digital terrain model generation [54,55], georeferenced orthomosaic generation [56,57], 3D model generation and texturing [58]), it enables the use of Python and Java APIs, which allow for adapting the software to the user's needs, often dictated by its use for specialist analyses by scientists in the photogrammetry and teledetection fields [23,59,60].…”
Section: Data Acquisitionmentioning
confidence: 99%