Messe Munich  /  September 15, 2026  -  September 17, 2026

INTERGEO

The international meeting place for geodesy, geoinformation, and land management.

www.intergeo.de/en

Hall B5, booth I010

Our laser scanners, lighting, and camera systems measure the 3D geometry of objects and large structures with high precision. The majority of our systems are based on the principle of time-of-flight measurement. Combined with a scanning unit, they capture three-dimensional object geometries quickly and precisely from the millimeter to the 100-meter range. The eye-safe systems are robustly designed for use on mobile platforms such as measuring trains, vehicles for road surface measurement, submarine vehicles, or UAVs.

Our measurement systems comprise software for data analysis. For an efficient evaluation of 3D data, we increasingly rely on adaptive algorithms that enable automated interpretation of measurement data.
 

Exhibits

The MUM-mini multisensor system uses color cameras and laser scanners to capture the surrounding environment from a mobile platform. It consists of a positioning unit, a processing unit, and a data storage unit. Artificial intelligence (AI) interprets the data semantically. The data is processed in real time and available immediately after a measurement is taken.

The Mobile Precise Scanner (MPS) is our latest high-end scanning system for capturing environments in 3D. Designed for mobile outdoor use, this versatile tool can be easily deployed on various mobile mapping vehicles, both on the road and on rails. Featuring an extremely high scanning rate, the MPS achieves a unique profile density, even at high speeds. Its high resolution and a full 360° scanning angle enable seamless detection of the environment, even of narrow objects.

The Airborne Bathymetric Laser Scanner (ABS) was developed for bathymetric and ecological applications. It is designed as a particularly small and lightweight measuring system that—mounted on a special UAV—can safely navigate over the water surface. The laser scanner measures from an altitude of up to 100 meters based on pulsed time-of-flight measurement with two different wavelengths. Using multi-wavelength LiDAR guarantees highly precise measurements as a basis for generating detailed 3D topographic maps.