Dense point clouds acquired from Terrestrial Laser Scanners (TLS) have proved to be effective for structural deformation assessment. In the last decade, many researchers have defined methodology and workflow in order to compare different point clouds, with respect to each other or to a known model, assessing the potentialities and limits of this technique. Currently, dense point clouds can be obtained by Close-Range Photogrammetry (CRP) based on a Structure from Motion (SfM) algorithm. This work reports on a comparison between the TLS technique and the Close-Range Photogrammetry using the Structure from Motion algorithm. The analysis of two Reinforced Concrete (RC) beams tested under four-points bending loading is presented. In order to mea...
Change detection and deformation monitoring is an active area of research within the field of engine...
Deformation monitoring, and in general structural health monitoring, of civil infrastructure systems...
The weather conditions and the operation load are causing changes in the spatial position and in the...
Dense point clouds acquired from Terrestrial Laser Scanners (TLS) have proved to be effective for st...
In this paper we show the results of several tests carried out using methods and instrumentation typ...
In this paper we show the results of several tests carried out using methods and instrumentation typ...
Terrestrial laser scanners can rapidly acquire thousands of 3D points over a structure. The individu...
Purpose: Terrestrial laser scanning (TLS) point clouds have been widely used in deformation measurem...
Concrete structures are routinely monitored to detect change and deformation in the field of enginee...
Terrestrial Laser Scanner (TLS) offers a new approach of deformation analysis. Different from conven...
Terrestrial laser scanning (TLS) is capable to be a reliable deformation monitoring device with high...
Terrestrial laser scanning (TLS) technology is by now a mature and widespread geodetic measurement t...
Change detection and deformation monitoring is an active area of research within the field of engine...
AbstractTerrestrial laser scanning (TLS) is capable to be a reliable deformation monitoring device w...
Concrete structures are routinely monitored to detect change and deformation in the field of enginee...
Change detection and deformation monitoring is an active area of research within the field of engine...
Deformation monitoring, and in general structural health monitoring, of civil infrastructure systems...
The weather conditions and the operation load are causing changes in the spatial position and in the...
Dense point clouds acquired from Terrestrial Laser Scanners (TLS) have proved to be effective for st...
In this paper we show the results of several tests carried out using methods and instrumentation typ...
In this paper we show the results of several tests carried out using methods and instrumentation typ...
Terrestrial laser scanners can rapidly acquire thousands of 3D points over a structure. The individu...
Purpose: Terrestrial laser scanning (TLS) point clouds have been widely used in deformation measurem...
Concrete structures are routinely monitored to detect change and deformation in the field of enginee...
Terrestrial Laser Scanner (TLS) offers a new approach of deformation analysis. Different from conven...
Terrestrial laser scanning (TLS) is capable to be a reliable deformation monitoring device with high...
Terrestrial laser scanning (TLS) technology is by now a mature and widespread geodetic measurement t...
Change detection and deformation monitoring is an active area of research within the field of engine...
AbstractTerrestrial laser scanning (TLS) is capable to be a reliable deformation monitoring device w...
Concrete structures are routinely monitored to detect change and deformation in the field of enginee...
Change detection and deformation monitoring is an active area of research within the field of engine...
Deformation monitoring, and in general structural health monitoring, of civil infrastructure systems...
The weather conditions and the operation load are causing changes in the spatial position and in the...