Bibtex:Maidi08a

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Version du 9 décembre 2008 à 10:12 (modifier)
Maidi (Discuter | Contributions)
(Nouvelle page : <bibtex> @InProceedings{Maidi08, author = {M. Maidi and F. Ababsa and M. Mallem}, title = {Handling Occlusions for Augmented Reality Systems}, booktitle = {The 13t...)
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<bibtex> <bibtex>
-@InProceedings{Maidi08,+@InProceedings{Maidi08a,
- author = {M. Maidi and F. Ababsa and M. Mallem},+ author = {F. Alcala,..., M.Maidi et al.},
- title = {Handling Occlusions for Augmented Reality Systems},+ title = {VENUS (Virtual ExploratioN of Underwater Sites), Two years of interdisciplinary},
- booktitle = {The 13th International Fall Workshop Vision, Modeling, and Visualization Workshop (VMV 2008)},+ booktitle = {The 14th Virtual Systems and Multimedia Conference (VSMM 2008)},
pages = {}, pages = {},
year = {2008}, year = {2008},
- address = {Konstanz (Germany)},+ address = {Limassol (Cyprus)},
- month = {October 08-10},+ month = {October 20-26},
- abstract = {In Augmented Reality applications, the human+ abstract = {}
-perception is enhanced with computer-generated+
-graphics. These graphics must be exactly registered+
-to real objects in the scene and this requires+
-an effective Augmented Reality system to track the+
-user’s viewpoint. In this paper, a robust tracking algorithm+
-based coded fiducials is presented. Square+
-targets are identified and pose parameters are computed+
-using a hybrid approach based on a direct+
-method combined with the Kalman filter. An important+
-factor for providing a robust Augmented Reality+
-system is the correct handling of targets occlusions+
-by real scene elements. To overcome tracking+
-failure due to occlusions, we extend our method using+
-an optical flow approach to track visible points+
-and maintain virtual graphics overlaying when targets+
-are not identified. Our proposed real time algorithm+
-is tested with different camera viewpoints+
-under various image conditions and shows to be accurate+
-and robust.}+
} }
</bibtex> </bibtex>

Version du 9 décembre 2008 à 10:19

F. Alcala,..., M.Maidi et al. - VENUS (Virtual ExploratioN of Underwater Sites), Two years of interdisciplinary

The 14th Virtual Systems and Multimedia Conference (VSMM 2008) , Limassol (Cyprus), October 20-26, 2008
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