Control surveys to compare construction progress with as-designed models or drawings for quality assurance purposes. The complete 3D model was prepared from a laser scanning data.
Mapping existing site conditions to see how these compare with available documentation and 3D design models. The complete 3D model was prepared from a laser scanning data.
Control surveys to compare construction progress with as-designed models or drawings for quality assurance purposes. The complete 3D model was prepared from a laser scanning data.
Control surveys to compare construction progress with as-designed models or drawings for quality assurance purposes. The complete 3D model was prepared from a laser scanning data.
Control surveys to compare construction progress with as-designed models or drawings for quality assurance purposes. The complete 3D model was prepared from a laser scanning data.
Control surveys to compare construction progress with as-designed models or drawings for quality assurance purposes. The complete 3D model was prepared from a laser scanning data.
The final 3D laser scanning stage, after the construction of the building is finished. As laser scanning is used throughout the entire construction project, a complete 3D model can be created. The new facility will have as-built documentation from all the major milestones in the project, creating a record of what is behind the walls, above the ceilings and under the floor slabs for owners to utilise throughout the lifecycle of the building.
Laser scanning of the existing situation of the reconstructed object and preparation of a 3D model for BIM processes.
Laser scanning of the existing situation of the reconstructed object and preparation of a 3D model for BIM processes.
Laser scanning of the existing situation of the reconstructed object and preparation of a 3D model for BIM processes.
Laser scanning of the existing situation of the reconstructed object and preparation of a 3D model for BIM processes.
Terrestrial laser scanning for monitoring the deformations of the building.
Terrestrial laser scanning for monitoring the deformations of the building.
Terrestrial laser scanning for monitoring the deformations of the building.
Elevations, Cross Sections and Floor Plans when derived from rich point cloud data can show the nature of buildings in a very detailed way.
Elevations, Cross Sections and Floor Plans when derived from rich point cloud data can show the nature of buildings in a very detailed way.
A vectorized drawing of the roof of the building, when it is necessary to install additional structures, such as terraces, skylights, which will change the structure of the roof itself.
A detailed plan of interior spaces when it is necessary to reconstruct, restore or redesign complex spaces.