a “turnkey” service
Our way of working allows you to focus only on your desires and needs,
WE'LL TAKE CARE OF EVERYTHING ELSE.
The sky is the limit
Riegl VZ-600i Laser Scanner
Range: 900 m
Accuracy: 3 mm
Vegetation bypass: up to 31 echoes on the same beam
Automatic registration and georeferencing on board the scanner without the need for external devices
3 integrated cameras
Up to 2,200,000 points per second
Up to 420 lines per second
30 second scans (including color) with 6mm resolution at 10m
Scan data download at 500 MB per second
Laser scanner survey
and 3D restitution
Laser Scanner surveying is currently the most precise methodology for surveying a building, a bridge, a technological system, or any solid object, even if particularly complex, thanks to its high acquisition speed and the significant amount of information collected.
3D models and CAD plans based on laser surveying
A good way to reduce costs is laser scanning. Laser scanning allows for quick and precise surveys of structures, as well as furnishings, landscapes, equipment, and installations in general. This is why laser scanners are used, both for 3D surveys of any size and for large or particularly complex structures.
Modelli 3D e planimetrie CAD basati sul rilievo laser
Un buon metodo per ridurre i costi è la scansione laser. Con il laser scanner i rilievi vengono eseguiti in modo rapido e preciso, su strutture, nonché arredi, paesaggi, attrezzature o installazioni in genere. Ecco perché vengono usati i laser scanner, sia per rilievi 3D di qualsiasi dimensione che per strutture di grande estensione o particolarmente complesse.
Mobile mapping
LiDAR data, in the form of a point cloud, can be used to map entire cities, allowing structures or areas of interest to be precisely located in millimeter detail.
It is possible to classify and extract features and objects such as road networks, bridges, street furniture and vegetation.
Mobile mapping technology represents an advanced and extremely reliable solution for the acquisition of precise and detailed geospatial data.
Using cutting-edge devices and highly sophisticated software, you can acquire the highest-quality georeferenced information on any surface or object. This will allow you to perform more precise and detailed surveys, streamlining field management and improving your overall productivity.
The use of SLAM (Simultaneous Localization and Mapping) technology guarantees fast, high-quality results. It is also used in areas without GPS signals, such as indoors, tunnels, and densely populated areas.
Possibility of importing control points (GCPs) for trajectory calculation correction and data georeferencing
Suitable for underground environments such as tunnels, galleries, wooded areas and complex architectural environments