Accurate Closed-form Estimation of Local Affine Transformations Consistent with the Epipolar Geometry
Abstract
For a pair of images satisfying the epipolar constraint, a method for accurate estimation of local affine transformations is proposed. The method returns the local affine transformation consistent with the epipolar geometry that is closest in the least squares sense to the initial estimate provided by an affine-covariant detector. The minimized L2 norm of the affine matrix elements is found in closed-form. We show that the used norm has an intuitive geometric interpretation. The method, with negligible computational requirements, is validated on publicly available benchmarking datasets and on synthetic data. The accuracy of the local affine transformations is improved for all detectors and all image pairs. Implicitly, precision of the tested feature detectors was compared. The Hessian-Affine detector combined with ASIFT view synthesis was the most accurate.Session
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DOI
10.5244/C.30.11https://dx.doi.org/10.5244/C.30.11
Citation
Daniel Barath, Jiri Matas and Levente Hajder. Accurate Closed-form Estimation of Local Affine Transformations Consistent with the Epipolar Geometry. In Richard C. Wilson, Edwin R. Hancock and William A. P. Smith, editors, Proceedings of the British Machine Vision Conference (BMVC), pages 11.1-11.12. BMVA Press, September 2016.
Bibtex
@inproceedings{BMVC2016_11,
title={Accurate Closed-form Estimation of Local Affine Transformations Consistent with the Epipolar Geometry},
author={Daniel Barath, Jiri Matas and Levente Hajder},
year={2016},
month={September},
pages={11.1-11.12},
articleno={11},
numpages={12},
booktitle={Proceedings of the British Machine Vision Conference (BMVC)},
publisher={BMVA Press},
editor={Richard C. Wilson, Edwin R. Hancock and William A. P. Smith},
doi={10.5244/C.30.11},
isbn={1-901725-59-6},
url={https://dx.doi.org/10.5244/C.30.11}
}