A.I. Comport, E. Marchand, M. Pressigout, F. Chaumette. Real-time markerless tracking for augmented reality: the virtual visual servoing framework. IEEE Trans. on Visualization and Computer Graphics, 12(4):615-628, Juillet 2006.
Charger l'article :
Doi page
Charger l'article sur Hal:
Charger l'article :
Adobe portable document (pdf)
Copyright :
Les documents contenus dans ces répertoires sont rendus disponibles par les auteurs qui y ont contribué en vue d'assurer la diffusion à temps de travaux savants et techniques sur une base non-commerciale. Les droits de copie et autres droits sont gardés par les auteurs et par les détenteurs du copyright, en dépit du fait qu'ils présentent ici leurs travaux sous forme électronique. Les personnes copiant ces informations doivent adhérer aux termes et contraintes couverts par le copyright de chaque auteur. Ces travaux ne peuvent pas être rendus disponibles ailleurs sans la permission explicite du détenteur du copyright.
Cette page est générée automatiquement par bib2html v217, © Inria 2002-2015, Projet Lagadic
Tracking is a very important research subject in a real-time augmented reality context. The main requirements for trackers are high accuracy and little latency at a reasonable cost. In order to address these issues, a real-time, robust and efficient 3D model-based tracking algorithm is proposed for a 'video see through' monocular vision system. The tracking of objects in the scene amounts to calculating the pose between the camera and the objects. Virtual objects can then be projected into the scene using the pose. Here, non-linear pose estimation is formulated by means of a virtual visual servoing approach. In this context, the derivation of point-to-curves interaction matrices are given for different 3D geometrical primitives including straight lines, circles, cylinders and spheres. A local moving edges tracker is used in order to provide real-time tracking of points normal to the object contours. Robustness is obtained by integrating a M-estimator into the visual control law via an iteratively re-weighted least squares implementation. This approach is then extended to address the 3D model-free augmented reality problem. The method presented in this paper has been validated on several complex image sequences including outdoor environments. Results show the method to be robust to occlusion, changes in illumination and miss-tracking
Éric Marchand
François Chaumette
@article{Comport06b,
Author = {Comport, A.I. and Marchand, E. and Pressigout, M. and Chaumette, F.},
Title = {Real-time markerless tracking for augmented reality: the virtual visual servoing framework},
Journal = {IEEE Trans. on Visualization and Computer Graphics},
Volume = { 12},
Number = {4},
Pages = {615--628},
Month = {July},
Year = {2006}
}
Charger la référence EndNote (.ref)
|
| Lagadic
| Plan du site
| Équipes
| Publications
| Démonstrations
|
Irisa - Inria - Copyright 2014 © Projet Lagadic |