Precision topography
3D modeling of the territory
LiDAR surveying uses high-frequency laser pulses to generate highly accurate three-dimensional models of the earth’s surface. By measuring the signal return time, a detailed point cloud can be obtained, which is useful for high-resolution environmental, urban planning and infrastructure analyses.
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Advanced laser remote sensing
Three-dimensional accuracy for land analysis
LiDAR technology enables the acquisition of high-resolution 3D models of the earth’s surface and its features by emitting laser pulses and measuring the return time. The result is an extremely detailed point cloud, ideal for environmental, engineering and urban planning applications.
Topographic LiDAR
Installed on planes or helicopters, it scans the terrain to create digital models of soil and surfaces, regardless of vegetation cover.
Bathymetric LiDAR
It uses green laser pulses to penetrate the water and map the sea and coastal seabed, ideal for managing coastal areas and shallow inland waters.
Applications
Environment and land management
Detailed analyses of hydrogeological risk and watercourses, mapping of flood areas and hydraulic modelling, seabed survey, monitoring of landslides and unstable slopes, also in densely vegetated areas.
Urban planning
3D modelling of cities, analysis of land use and building density, architectural simulation, study of sun exposure and urban microclimate, monitoring of green areas, creation of digital twins and integration with IoT systems for real-time control.
Forestry
Forest cover mapping and biomass estimation, monitoring deforestation and ecosystem health, forest inventories, sustainable management and reforestation planning, forest structure analysis and fire prevention.
Logistics and transport
Road, bicycle and pedestrian infrastructure planning, visibility and obstacle analysis for road safety, corridor surveys for highways, railways, pipelines, power lines.
Construction and Infrastructure
Accurate and analytical modelling of existing infrastructures (roads, bridges, railways), structural deformation detection and maintenance support with drones, design support and verification of power grids and utilities.
Telecommunications
Monitoring of vegetation interference on infrastructure, support for planning and optimisation of networks (fibre optics, 5G, wireless), support for deployment of smart infrastructure for smart cities.