A theory of self-calibration of a moving camera
International Journal of Computer Vision
Self-calibration from multiple views with a rotating camera
ECCV '94 Proceedings of the third European conference on Computer vision (vol. 1)
IEEE Transactions on Pattern Analysis and Machine Intelligence
Stratified Self-Calibration with the Modulus Constraint
IEEE Transactions on Pattern Analysis and Machine Intelligence
International Journal of Computer Vision - 1998 Marr Prize
A Flexible New Technique for Camera Calibration
IEEE Transactions on Pattern Analysis and Machine Intelligence
Estimation of Relative Camera Positions for Uncalibrated Cameras
ECCV '92 Proceedings of the Second European Conference on Computer Vision
Autocalibration from Planar Scenes
ECCV '98 Proceedings of the 5th European Conference on Computer Vision-Volume I - Volume I
Euclidean Reconstruction from Uncalibrated Views
Proceedings of the Second Joint European - US Workshop on Applications of Invariance in Computer Vision
Autocalibration and the absolute quadric
CVPR '97 Proceedings of the 1997 Conference on Computer Vision and Pattern Recognition (CVPR '97)
Factorization Methods for Projective Structure and Motion
CVPR '96 Proceedings of the 1996 Conference on Computer Vision and Pattern Recognition (CVPR '96)
Euclidean Reconstruction from Constant Intrinsic Parameters
ICPR '96 Proceedings of the 1996 International Conference on Pattern Recognition (ICPR '96) Volume I - Volume 7270
Scaled Euclidean 3D reconstruction based on externally uncalibrated cameras
ISCV '95 Proceedings of the International Symposium on Computer Vision
Multi-View Subspace Constraints on Homographies
ICCV '99 Proceedings of the International Conference on Computer Vision-Volume 2 - Volume 2
Self-Calibration of Zooming Cameras Observing an Unknown Planar Structure
ICPR '00 Proceedings of the International Conference on Pattern Recognition - Volume 1
ICCV '98 Proceedings of the Sixth International Conference on Computer Vision
Using Geometric Constraints through Parallelepipeds for Calibration and 3D Modeling
IEEE Transactions on Pattern Analysis and Machine Intelligence
Camera calibration and light source orientation from solar shadows
Computer Vision and Image Understanding
Camera calibration based on receptive fields
Pattern Recognition
Plane-based camera self-calibration by metric rectification of images
Image and Vision Computing
Recovering epipolar direction from two affine views of a planar object
Computer Vision and Image Understanding
Kruppa equation based camera calibration from homography induced by remote plane
Pattern Recognition Letters
Self-calibration using a particular motion of camera
WSEAS Transactions on Computer Research
Ground Plane Estimation Based on Virtual Camera Rotation
Proceedings of the 2007 conference on Artificial Intelligence Research and Development
An automatic camera calibration method using GPS-enabled mobile device
ICACT'09 Proceedings of the 11th international conference on Advanced Communication Technology - Volume 1
Geometric calibration of digital cameras through multi-view rectification
Image and Vision Computing
Camera self-calibration under the constraint of distant plane
RobVis'08 Proceedings of the 2nd international conference on Robot vision
Large-scale, dense city reconstruction from user-contributed photos
Computer Vision and Image Understanding
Affine epipolar direction from two views of a planar contour
ACIVS'06 Proceedings of the 8th international conference on Advanced Concepts For Intelligent Vision Systems
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In this paper, we describe an efficient method to impose the constraints existing between the collineations between images which can be computed from a sequence of views of a planar structure. These constraints are usually not taken into account by multiview techniques in order not to increase the computational complexity of the algorithms. However, imposing the constraints is very useful since it allows a reduction of geometric errors in the reprojected features and provides a consistent set of collineations which can be used for several applications such as mosaicing, reconstruction, and self-calibration. In order to show the validity of our approach, this paper focus on self-calibration from unknown planar structures proposing a method exploiting the consistent set of collineations. Our method can deal with an arbitrary number of views and an arbitrary number of planes and varying camera internal parameters. However, for simplicity, this papers will only discuss the case with one plane in several views. The results obtained with synthetic and real data are very accurate and stable even when using only few images.