Robust Visual Object Tracking using Multi-Mode Anisotropic Mean Shift and Particle Filters
Journal article, 2011
This paper addresses issues in object tracking where videos contain complex scenarios. We propose a novel tracking scheme that jointly employs particle filters and multi-mode anisotropic mean shift. The tracker estimates the dynamic shape and appearance of objects, and also performs online learning of reference object. Several partition prototypes and fully tunable parameters are applied to the rectangular object bounding box for improving the estimates of shape and multiple appearance modes in the object. The main contributions of the proposed scheme include: (a) use a novel approach for online learning of reference object distributions; (b) use a five parameter set (2D central location, width, height, and orientation) of rectangular bounding box as tunable variables in the joint tracking scheme; (c) derive the multi-mode anisotropic mean shift related to a partitioned rectangular bounding box and several partition prototypes; (d) relate the bounding box parameter computation with the multi-mode mean shift estimates by combining eigen-decomposition, geometry of subareas and weighted average. This has led to more accurate and efficient tracking where only small number of particles (<20) is required. Experiments have been conducted for a range of videos captured by a dynamic or
stationary camera, where the target object may experience long-term partial occlusions, intersections with other objects with similar color distributions, deformable object accompanied with shape, pose or abrupt motion speed changes, and cluttered background. Comparisons with existing methods and performance evaluations are also performed. Test results have shown marked improvement of the proposed method in terms of robustness to occlusions, tracking drifts and tightness and accuracy of tracked bounding box. Limitations of the method are also mentioned.
partial object occlusion
Visual object tracking
anisotropic mean shift