Capturing the real world
Checking designated sensitive places: buildings, natural terrain
It may be necessary to check a sensitive site for different types of deformation of the primary form and the frequency and rate at which the form is deforming, for example, threatening to collapse. This is where surveying comes in.
Because of the frequency of measurements, we have divided this issue into two parts:
I. Permanent monitoring
II. Interim monitoring
Because of the specific nature of surveying, we have divided the surveying monitoring into four groups:
I. 3D scanning
II. Measurement of displacements and deformations
III. Ground settlement measurements
IV. Verticality measurements
Each of the above measurements has a different level of accuracy and precision, and therefore price and time required to obtain the information. We are happy to be of assistance in the selection of the measurement method that is best suited to your needs.
Leica GeoMOS integrated system for building and natural terrain monitoring
We are able to help monitor the most complex objects and implement solutions to obtain live results on both vertical and horizontal deformations, as a result of our cooperation with several Polish universities. This solution relies on Leica software and a customised measurement setup.
3D scanning
Modern technology allows us to visualise the objects being measured even more accurately. By using laser scanning, we are able to create point clouds (consisting of thousands of points) from which we can create CAD models for purposes such as design, visualisation or identifying conflicts between an existing project and an old installation in the building.
I. BIM documentation
II. 3D CAD models
III. Installation models
IV. Detection of collisions between a point cloud and the 3D model
Photogrammetry
For studies with a large surveying area, low-altitude photogrammetry is a solution that helps to optimise costs. On the other hand, for volume measurements, it is much more efficient than classical methods due to the number of points we obtain from a single flight. This simply leads to a more accurate calculation of, for example, earth masses or aggregate volumes.
I. Orthophotomaps
II. Numerical terrain models
III. Volume measurements