Digital Aerial Photogrammetry
Transforms aerial photographs into high-precision maps and digital models, enabling topographic, urban, and agricultural analyses.
Remote Sensing
Collects information about the Earth’s surface through sensors onboard aircraft or satellites, measuring spectral variations invisible to the human eye.
LiDAR (Light Detection and Ranging)
Laser-based technology that generates 3D point clouds to measure elevation, volumes, and structures with centimeter-level accuracy.
GIS Systems (Geographic Information Systems)
Software platforms that organize, integrate, and analyze geospatial data, converting it into thematic maps and decision-making reports.
SAR Radar (Synthetic Aperture Radar)
Synthetic aperture radar capable of generating images through cloud cover and at night, ideal for large-scale monitoring.
IMU (Inertial Measurement Unit)
Inertial system that records the position and orientation of airborne sensors, ensuring greater accuracy in survey operations.
Large- and Medium-Format Digital Cameras
Aerial imaging equipment that delivers ultra-high-resolution images, revolutionizing aerial photogrammetry since the 2000s.
Multispectral and Hyperspectral Cameras
Sensors that capture hundreds of spectral bands, enabling detailed analysis of vegetation, soils, and natural resources beyond human vision.
Orthophotography
Geometrically corrected aerial images transformed into metric maps with cartographic accuracy.
Altimetric Restitution
Process of generating contour lines and digital terrain models from aerial imagery or LiDAR data.
Offshore Positioning
Geospatial techniques applied in marine environments to support oil and gas exploration, offshore operations, and subsea telecommunications.
Precision Forestry
Application of precision agriculture principles to forestry, using geospatial data for sustainable and productive forest management.
Precision Agriculture
Use of geospatial technologies to optimize agricultural management, reduce waste, and increase productivity with sustainability.
Agricultural Zoning
Division of territory into agricultural suitability zones based on soil, relief, climate, and geospatial data.
MEDUSA (Monitoring Environmental Damages Using Satellite Acquisitions)
A global reference in airborne environmental monitoring, designed to detect and map oil spills quickly and accurately.
Technology that reveals the invisible and measures the world with precision
Behind every map, image, or dataset produced by Fototerra lies a robust ecosystem of advanced technologies that transform territory into strategic information. From air to sea, from the visible to the spectral, we integrate sensors, radars, and intelligent systems to decode the Earth’s surface - and everything above and beneath it - with the highest level of technical accuracy.
