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ICCV
2001
IEEE
2001
IEEE
Plane-based Projective Reconstruction
A linear method for computing a projective reconstruction from a large number of images is presented and then evaluated. The method uses planar homographies between views to linearize the resecting of the cameras. Constraints based on the fundamental matrix, trifocal tensor or quadrifocal tensor are used to derive relationships between the position vectors of all the cameras at once. The resulting set of equations are solved using a SVD. The algorithm is computationally efficient as it is linear in the number of matched points used. A key feature of the algorithm is that all of the images are processed simultaneously, as in the SturmTriggs factorization method, but it differs in not requiring that all points be visible in all views. An additional advantage is that it works with any mixture of line and point correspondences through the constraints these impose on the multilinear tensors. Experiments on both synthetic and real data confirm the method's utility.
Real-time TrafficComputer Vision | ICCV 2001 | Linear Method | Method Uses Planar | Multilinear Tensors | SturmTriggs Factorization Method | Trifocal Tensor |
Related Content
| Added | 15 Oct 2009 |
| Updated | 31 Oct 2009 |
| Type | Conference |
| Year | 2001 |
| Where | ICCV |
| Authors | Robert Kaucic, Richard I. Hartley, Nicolas Y. Dano |
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