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Proceedings Paper

Automatic scene activity modeling for improving object classification
Author(s): S. Foucher; M. Lalonde; L. Gagnon
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Paper Abstract

In video surveillance, automatic methods for scene understanding and activity modeling can exploit the high redundancy of object trajectories observed over a long period of time. The goal of scene understanding is to generate a semantic model of the scene describing the patterns of normal activities. We are proposing to boost the performances of a real time object tracker in terms of object classification based on the accumulation of statistics over time. Based on the object shape, an initial three class object classification (Vehicle, Pedestrian and Other) is performed by the tracker. This initial labeling is usually very noisy because of object occlusions/merging and the eventual presence of shadows. The proposed scene activity modeling approach is derived from Makris and Ellis algorithm where the scene is described in terms of clusters of similar trajectories (called routes). The original envelope based model is replaced by a simpler statistical model around each route's node. The resulting scene activity model is then used to improve object classification based on the statistics observed within the node population of each route. Finally, the Dempster-Shafer theory is used to fuse multiple evidence sources and compute an improved object classification map. In addition, we investigate the automatic detection of problematic image areas that are the source of poor quality trajectories (object reflections in buildings, trees, flags, etc.). The algorithm was extensively tested using a live camera in a urban environment.

Paper Details

Date Published: 15 April 2010
PDF: 10 pages
Proc. SPIE 7701, Visual Information Processing XIX, 770104 (15 April 2010); doi: 10.1117/12.850273
Show Author Affiliations
S. Foucher, Computer Research Institute of Montreal (Canada)
M. Lalonde, Computer Research Institute of Montreal (Canada)
L. Gagnon, Computer Research Institute of Montreal (Canada)


Published in SPIE Proceedings Vol. 7701:
Visual Information Processing XIX
Zia-ur Rahman; Stephen E. Reichenbach; Mark A. Neifeld, Editor(s)

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