Data Collection
2D and 3D representation of the environment and objects
We use high-precision sensors, including high-resolution optical cameras (RGB) and LiDAR technology, to perform recordings without direct physical contact with the objects being recorded.
With this method, we collect data faster and more accurately, while simultaneously achieving significant time and financial savings.
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LiDAR scanning
LiDAR technology represents the most modern form of laser scanning, enabling the creation of precise 3D models and point clouds of scanned areas or objects. The area of interest can be recorded quickly, providing detailed measurements of the terrain and structures on it.
We perform airborne laser scanning (ALS) and terrestrial laser scanning (TLS), and LiDAR can also be used to monitor physical processes in the atmosphere, such as DIAL (Differential Absorption Lidar). LiDAR allows for rapid data collection needed for creating digital twins, detailed models of steep terrains, buildings, vegetation, forested areas, city centers, etc.
LiDAR is most commonly used in sectors such as telecommunications, mining, bridge construction, civil engineering, and many others. This active data collection method facilitates strategic decision-making and cost reduction.
Thermal imaging
Thermal cameras allow for the reading of the infrared part of the spectrum, enabling recording in the dark since they do not rely on the visible light spectrum. Thermal cameras mounted on drones are ideal for monitoring hard-to-reach and hazardous areas, allowing safe data collection in difficult conditions.
Thermal imaging can be used for fire monitoring, searching for missing persons, tracking objects or vehicles, and inspecting infrastructure such as transmission lines, solar panels, and wind turbines. In the construction industry, thermal cameras are used to find thermal bridges and cracks in materials, while in agriculture, they help identify areas with water shortages or plant diseases.
This technology helps users cover large areas and analyze collected data from a different location.
Advanced thermal cameras can detect details invisible to the naked eye. Examples include:
- Gas pipeline inspections – to detect gas leaks, even in hard-to-reach areas.
- Agricultural crop monitoring – to increase yields and plant health.
- Building inspections – to identify areas of heat loss and insulation inefficiency.
- Facility and infrastructure inspections – to find defects.
- Photovoltaic cell inspections – to identify malfunctions and faulty panels.
Multispectral imaging
Through multispectral cameras, we analyze various parts of the electromagnetic spectrum. This imaging provides crucial information that enables timely interventions and enhances the efficiency of managing agricultural and forestry resources.
This technology allows precise monitoring of plant health, identifying areas with too little or too much water, as well as detecting diseases and pests.
Orthophotogrammetry
Aero-photogrammetry is conducted using drones equipped with high-resolution optical sensors and ensures the creation of precise 2D and 3D models. These data are then used to generate digital orthophoto bases, essential for detailed planning and analysis across various sectors, including urban planning, agriculture, construction, and infrastructure.
These high-precision bases provide detailed representations of buildings, vegetation, topography, and infrastructure, thus enabling better resource management and risk reduction.
Contact us for specific data collection needs.
