3D Mapping by Aerial Inspection Nederland in Hoofddorp, Noord-Holland delivers highly accurate, detailed, and measurable digital representations of physical environments. Using advanced drone technology and photogrammetry software, we create true-to-scale 3D models of buildings, infrastructure, land parcels, construction sites, and industrial facilities. These models offer a complete visual overview, allowing professionals to analyze terrain, inspect structures, measure distances, evaluate elevation changes, and identify issues with extreme precision.
Our 3D mapping services are ideal for construction planning, engineering, architecture, surveying, land development, and asset documentation. By capturing hundreds of overlapping aerial images and processing them into a seamless digital model, we provide actionable data without the need for manual ground surveying. This reduces risk, saves time, and dramatically improves overall accuracy.
Each project includes detailed mesh models, point clouds, orthophotos, and elevation maps that support advanced analysis and decision-making. Whether you’re monitoring progress, verifying site conditions, or preparing project proposals, our 3D maps ensure you always have clean, clear, and reliable visual data.
Aerial Inspection Nederland delivers professional 3D mapping solutions that help clients move forward with confidence throughout Noord-Holland.
Photogrammetry and LiDAR 3D mapping are used for precise measurements and visualizations in various sectors. Construction sites, bridges, roofs, roads, and railway lines are inspected for damage and subsidence, while volume calculations assist with earthmoving and the monitoring of sand and gravel deposits. LiDAR offers additional benefits in forest management and archaeology by detecting hidden structures and elevation changes. The collected data is converted into a digital 3D model for detailed analysis and precise measurements, making inspections faster, safer, and more efficient.
Photogrammetry is a technique that uses aerial photographs to create precise measurements and 3D models of objects and landscapes. It offers an efficient way to map large areas without physical measurements on the ground.
LiDAR (Light Detection and Ranging) uses lasers to measure the distance to objects and create detailed 3D maps. It's ideal for mapping areas with dense vegetation or complex structures where traditional methods fall short.
A terrain model is a digital representation of the ground surface, often generated by photogrammetry or LiDAR. It is used for applications such as hydrological studies, construction planning, and landscape design.