3D photogrammetry by drone
Everything you need
Capture the World in 3D:
The Drone Photogrammetry Revolution
Using cutting-edge drone photogrammetry technology, transform any terrain or building into a geolocalized three-dimensional model with unrivaled precision. This innovative approach is now an essential tool in a variety of industries, facilitating exact measurements of distances, areas, and volumes directly from the generated 3D model.
Advanced 3D Modeling
thanks to Drones
Advanced 3D modeling through the use of drones is radically transforming the way we capture data about terrain or an object. This revolutionary method uses sequences of images taken from various angles to create accurate three-dimensional representations. Essential for topography, this technology allows extensive terrain surveys to be carried out with remarkable accuracy, down to pixel resolution, thus facilitating the creation of maps rich in detail. This information is crucial for a multitude of applications, ranging from territorial planning to environmental monitoring, including geological analysis.
Drones are proving to be invaluable tools for a wide range of technical applications, including but not limited to measuring volumes, constructing 3D spatial models, accurately assessing distances and areas, performing very high resolution orthophotographs, as well as the production of topographical surveys and contour maps.
Creation of Ultra-Realistic 3D Models by Aerial Photogrammetry
The art of creating 3D models begins with a methodical drone flight over the targeted object or area, performed at an optimal altitude for capture. Armed with a high-definition camera, the drone captures a series of images from different angles, each of which is precisely geolocated to ensure a faithful, to-scale representation. This crucial step paves the way for exact measurements, as well as the evaluation of surfaces and volumes with unprecedented precision.
Towards a Statue in 3D Modeling
The process continues with advanced software processing, which assembles these images into a dense point cloud, marking the start of the transformation into a 3D model. To achieve a higher level of detail and realism, further refinement of the point mesh is carried out, accompanied by careful texturing of the surface. The result is a 3D model of exceptional quality, offering unparalleled realism and definition.