Bibtex:Zen ipta
Un article de Wiki-evr@.
(Différences entre les versions)
Version du 21 novembre 2008 à 22:04 (modifier) Zendjebil (Discuter | Contributions) ← Différence précédente |
Version actuelle (7 janvier 2009 à 14:57) (modifier) (défaire) Zendjebil (Discuter | Contributions) |
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PUBLISHER = "IEEE", | PUBLISHER = "IEEE", | ||
ADDRESS = "Sousse, Tunisia", | ADDRESS = "Sousse, Tunisia", | ||
- | MONTH = "23-26 November | + | MONTH = "23-26 November", |
NOTE = "" | NOTE = "" | ||
abstract = "Outdoor Augmented Reality applications often combine heterogeneous sensors to recover 3D localization (position and orientation) in large environments. Indeed, accurate localization is critical to register virtual augmentations over a real scene. This paper describes a localization system composed of two parts: an Aid-localization subsystem and a Vision subsystem. The Aid-localization subsystem, composed of GPS and inertial sensor, has two functionalities: to initialize the visual tracking and to estimate the user's position and orientation when visual tracking fails. The Vision subsystem which represents the main block, allows continuously estimating the user's position and orientation using point-based visual tracking. | abstract = "Outdoor Augmented Reality applications often combine heterogeneous sensors to recover 3D localization (position and orientation) in large environments. Indeed, accurate localization is critical to register virtual augmentations over a real scene. This paper describes a localization system composed of two parts: an Aid-localization subsystem and a Vision subsystem. The Aid-localization subsystem, composed of GPS and inertial sensor, has two functionalities: to initialize the visual tracking and to estimate the user's position and orientation when visual tracking fails. The Vision subsystem which represents the main block, allows continuously estimating the user's position and orientation using point-based visual tracking. | ||
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+ | PDf = "http://evra.ibisc.univ-evry.fr/Proceedings/IPTA08/FinalPapers/p100.pdf" | ||
} | } | ||
</bibtex> | </bibtex> |
Version actuelle
I.M. Zendjebil, F. Ababsa, J-Y. Didier, M. Mallem - Hybrid Localization System for Mobile Outdoor Augmented Reality Applications