Title :
Adaptive Appearance Model for Object Contour Tracking in Videos
Author :
Allili, Mohand Saïd ; Ziou, Djemel
Author_Institution :
Univ. of Sherbrooke, Sherbrooke
Abstract :
In this paper, we propose a novel object tracking algorithm in video sequences. The formulation of the object tracking is based on variational calculus, where an adaptive parametric mixture model is used for object features representation. The tracking is based on matching the object mixture models between successive frames of the sequence by using active contours while adapting the mixture model to varying object appearance changes due to illumination conditions and camera geometry. The implementation of the method is based on level set active contours which allow for automatic topology changes and stable numerical schemes. We validate our approach on examples of object tracking performed on real video sequences.
Keywords :
image matching; image representation; image sequences; object detection; variational techniques; video signal processing; adaptive appearance model; adaptive parametric mixture model; automatic topology; illumination conditions; object contour tracking; object features representation; object tracking algorithm; variational calculus; video sequences; Active contours; Cameras; Geometry; Histograms; Lighting; Shape; Solid modeling; Target tracking; Topology; Video sequences; Tracking; boundary; color; level-sets.; mixture of pdfs; shape; texture;
Conference_Titel :
Computer and Robot Vision, 2007. CRV '07. Fourth Canadian Conference on
Conference_Location :
Montreal, Que.
Print_ISBN :
0-7695-2786-8
