Methods for Volumetric Reconstruction of Visual Scenes
International Journal of Computer Vision
Reillumination-driven shape from shading
Computer Vision and Image Understanding
3D surface point and wireframe reconstruction from multiview photographic images
Image and Vision Computing
Image and Vision Computing
3DTV view generation using uncalibrated pure rotating and zooming cameras
Image Communication
Reillumination-driven shape from shading
Computer Vision and Image Understanding
Re-illuminating single images using Albedo estimation
Pattern Recognition
Computer Vision and Image Understanding
Colour volumetric compression for realistic view synthesis applications
Multimedia Tools and Applications
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A system for the automatic reconstruction of real-world objects from multiple uncalibrated camera views is presented. The camera position and orientation for all views, the 3-D shape of the rigid object, as well as the associated color information, are recovered from the image sequence. The system proceeds in four steps. First, the internal camera parameters describing the imaging geometry are calibrated using a reference object. Second, an initial 3-D description of the object is computed from two views. This model information is then used in a third step to estimate the camera positions for all available views using a novel linear 3-D motion and shape estimation algorithm. The main feature of this third step is the simultaneous estimation of 3-D camera-motion parameters and object shape refinement with respect to the initial 3-D model. The initial 3-D shape model exhibits only a few degrees of freedom and the object shape refinement is defined as flexible deformation of the initial shape model. Our formulation of the shape deformation allows the object texture to slide on the surface, which differs from traditional flexible body modeling. This novel combined shape and motion estimation using sliding texture considerably improves the calibration data of the individual views in comparison to fixed-shape model based camera-motion estimation. Since the shape model used for model based camera-motion estimation is only approximate, a volumetric 3-D reconstruction process is initiated in the fourth step that combines the information from ail views simultaneously. The recovered object consists of a set of voxels with associated color information that describes even fine structures and details of the object. New views of the object can be rendered from the recovered 3-D model, which has potential applications in virtual reality or multimedia systems and the emerging field of video coding using 3-D scene models