CAD Model Terrain - 3D
Model the as-is situation with a Digital Surface Model (DSM), a Digital Terrain Model (DTM), and line work of the most important objects. Includes cleaning of vegetation
Orthomosaic - 2D
Picture of as-is situation by projecting it to the ground and viewing it from the sky. It is very similar to the satellite viewer of maps, but with a much higher resolution.
Digital Surface Model - 2.5D
A 2D raster where each point has the coordinates and the height of the as-is situation. Ideal to understand slopes and elevations of a terrain or roof.
Point Cloud from Photogrammetry - 3D
The as-is situation modeled by a cloud of points, each with the original color and the XYZ coordinates of the object.
Web Viewer
An online web viewer that allows you to visualize all the data without the need for installed software
Unprocessed Pictures
The pictures with embedded coordinates by flying the drone
Survey Report
A detailed report of the work done to support the accuracy of the results
Ground Control Points - 3D
Ground Control Points measured with a GNSS RTK rover. It is used to improve the absolute accuracy of the data to make the coordinates compatible with other GIS information.
Surface data XML - 3D
Separate Land XML file representing the Digital Surface Model or the Digital Terrain Model. Ready to be imported in CAD software.
Solar Panel Settlement
This service provides a reliable, drone-based method to monitor elevation changes in solar panel installations over time. By comparing high-resolution RGB surveys from multiple measurement campaigns, we identify settlement patterns and vertical deviations greater than 5 cm with high confidence. Clear visual outputs and structured reports help asset owners understand risks early and take corrective action before performance or warranty issues arise
Process
The inspection is typically carried out through three standardized measurement campaigns:
1. Zero Measurement – Immediately after construction, establishing a precise baseline
2. Interim Measurement – Approximately two years later to detect early settlement trends
3. Final Measurement – Before the end of the system warranty period (around five years)
Each campaign follows identical flight parameters and is supported by a robust control-point and benchmark system. RGB imagery is processed using industry-standard photogrammetry tools to generate accurate elevation models. Differences between datasets are analyzed to reliably detect and visualize elevation changes across the solar farm
Deliverables
Raw drone imagery and elevation data are often difficult to interpret and compare over time using standard software. Small but critical elevation changes can easily be overlooked without proper processing and validation. We transform RGB drone data into clean, repeatable elevation models and clear settlement visualizations that software alone cannot produce. All detected elevation changes are manually verified to reflect the real on-site situation. Finally, we deliver easy-to-use reports, heatmaps, and CAD/GIS-ready files tailored to your engineering and asset management workflows.