The project digitally documented archaeological sites in Sami, Kefalonia (Loutró and Kríni) using high-resolution drone and DSLR imagery processed photogrammetrically to produce 3D models, orthophotographs, digital terrain models, and elevations and sections for detailed study.
The project focused on the photogrammetric survey of the wider area of Sami, Kefalonia, aiming to create accurate geospatial data. Using drone imagery, a three-dimensional model, an orthophotograph, and a digital terrain model were produced. These outputs provide a detailed representation of the landscape, including contour lines derived from the terrain model, supporting further study and planning in the region.
The MOTION++ project enhances the MOTION solution with 3D Gaussian Splatting, fusing RGB and depth data in a cloud-based system with AerOS resource management to deliver realistic 3D reconstructions, novel view synthesis, and real-time analysis for vehicle inspection and broader applications in industry and construction.
The MOTION project develops an advanced computer vision system that uses deep learning, image stitching, and Structure from Motion to automate vehicle exterior inspection with accurate 3D reconstructions, reliable damage detection, and the potential for enhanced precision through LiDAR integration.
The project produced orthomosaics from high-resolution satellite images by evaluating imagery products, applying radiometric corrections and geometric orientation, and testing DSM- and DEM-based orthorectification methods, with results assessed for accuracy, efficiency, and cost.
The project created 3D digital models of exhibits from the Archaeological Museum of Polygyros by combining handheld Visual SLAM scanning, point cloud and mesh processing, and photogrammetric texturing to produce photorealistic models for study and digital presentation.