期刊论文详细信息
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
CONTRIBUTION OF BATHYMETRIC MULTI-BEAM SONAR AND LASER SCANNERS IN 3D MODELING AND ESTIMATION OF SILTATION OF DAM BASIN IN MOROCCO
article
F. Nouri1  F. Boucht1  M. Bouziani2 
[1] National Agency for Land Administration;School of Geomatic Sciences and Surveying Engineering
关键词: 3D Modelling;    Dam Monitoring;    Siltation;    Multi-beam Echo-Sounder;    Laser Scanner;    Point Cloud;    Fusion;   
DOI  :  10.5194/isprs-archives-XLVI-4-W4-2021-5-2021
来源: Copernicus Publications
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【 摘 要 】

In Morocco, the phenomenon of silting affects all the dams, where more than 75 Mm3 of sediments are deposited every year at the bottom of the reservoirs. The aim of our study is to assess the contribution of the bathymetric multi-beam sonar as well as static and mobile laser scanners in the estimation of siltation of the basin of the Tanger-Med dam in the north of Morocco. The proposed methodology consists of performing and fusion of a bathymetric survey by multi-beam echo-sounder with terrestrial laser scanner surveys in static mode and mobile mode. The result of these surveys is used, for the calculation of the siltation volume and the inspection of the upstream facing of the main structure. Siltation calculation was carried out with comparison to a reference survey obtained by single beam sonar. The comparison between these two instruments showed that the multi-beam presents many advantages: high density of the cloud of points acquired and precision. The density allows providing a better description of the dam's bottom. The comparative study between the two types of scanners showed that static scanner offers a better accuracy. However, mobile scanner gives more accessibility of all parts of the dam. As a conclusion, the multi-beam echo-sounder with additional laser scanner data have many advantages in this study: volume calculation precision, reduction of the acquisition time and the enhancement of the acquired point cloud density. We also obtained a global 3d modelling useful for the monitoring of the infrastructure.

【 授权许可】

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