Regularized Bundle-Adjustment to Model Heads from Image Sequences without Calibration Data
International Journal of Computer Vision
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Geometric modeling for computer vision.
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Visual Modeling with a Hand-Held Camera
International Journal of Computer Vision
An Efficient Solution to the Five-Point Relative Pose Problem
IEEE Transactions on Pattern Analysis and Machine Intelligence
Silhouette and stereo fusion for 3D object modeling
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A Comparison and Evaluation of Multi-View Stereo Reconstruction Algorithms
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Silhouette Coherence for Camera Calibration under Circular Motion
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Poisson surface reconstruction
SGP '06 Proceedings of the fourth Eurographics symposium on Geometry processing
Carved visual hulls for image-based modeling
ECCV'06 Proceedings of the 9th European conference on Computer Vision - Volume Part I
Reconstruction of sculpture from its profiles with unknown camera positions
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Journal of Visual Communication and Image Representation
Reconstructing the world in 3D: bringing games with a purpose outdoors
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OTESC: online transformation estimation between stereo cameras
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Exploiting loops in the graph of trifocal tensors for calibrating a network of cameras
ECCV'10 Proceedings of the 11th European conference on Computer vision: Part II
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Projector calibration by "inverse camera calibration"
SCIA'11 Proceedings of the 17th Scandinavian conference on Image analysis
On Camera Calibration with Linear Programming and Loop Constraint Linearization
International Journal of Computer Vision
Multiview 3D reconstruction in geosciences
Computers & Geosciences
Incremental 3d reconstruction using bayesian learning
IEA/AIE'12 Proceedings of the 25th international conference on Industrial Engineering and Other Applications of Applied Intelligent Systems: advanced research in applied artificial intelligence
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Incremental 3D reconstruction using Bayesian learning
Applied Intelligence
A Super-Resolution Framework for High-Accuracy Multiview Reconstruction
International Journal of Computer Vision
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The advent of high-resolution digital cameras and sophisticated multi-view stereo algorithms offers the promise of unprecedented geometric fidelity in image-based modeling tasks, but it also puts unprecedented demands on camera calibration to fulfill these promises. This paper presents a novel approach to camera calibration where top-down information from rough camera parameter estimates and the output of a multi-view-stereo system on scaled-down input images is used to effectively guide the search for additional image correspondences and significantly improve camera calibration parameters using a standard bundle adjustment algorithm (Lourakis and Argyros 2008). The proposed method has been tested on six real datasets including objects without salient features for which image correspondences cannot be found in a purely bottom-up fashion, and objects with high curvature and thin structures that are lost in visual hull construction even with small errors in camera parameters. Three different methods have been used to qualitatively assess the improvements of the camera parameters. The implementation of the proposed algorithm is publicly available at Furukawa and Ponce (2008b).