Abstract
Due to the reasonably acceptable performance of state-of-the-art object detectors, tracking-by-detection is a standard strategy for visual multi-object tracking (MOT). In particular, online MOT is more demanding due to its diverse applications in time-critical situations. A main issue of realizing online MOT is how to associate noisy object detection results on a new frame with previously being tracked objects. In this work, we propose a multi-object tracker method called CRF-boosting which utilizes a hybrid data association method based on online hybrid boosting facilitated by a conditional random field (CRF) for establishing online MOT. For data association, learned CRF is used to generate reliable low-level tracklets and then these are used as the input of the hybrid boosting. To do so, while existing data association methods based on boosting algorithms have the necessity of training data having ground truth information to improve robustness, CRF-boosting ensures sufficient robustness without such information due to the synergetic cascaded learning procedure. Further, a hierarchical feature association framework is adopted to further improve MOT accuracy. From experimental results on public datasets, we could conclude that the benefit of proposed hybrid approach compared to the other competitive MOT systems is noticeable.
Highlights
Multiple object tracking (MOT) [1,2] is one of the most important and hectic areas in the field of computer vision research, and recent advances on detection and tracking of multiple objects have led to its application to diverse practical problems such as bio-medical imaging, visual surveillance systems and augmented reality
We evaluate the effectiveness of our proposed MOT system with three widely this section, theexperimental experimental results,their their analyses,and and the experimental conclusions that can used public surveillance datasets: CAVIAR
We evaluate the effectiveness of our proposed MOT system with three widely used public surveillance datasets: CAVIAR [44], PETS2009 [45] and ETH [46]
Summary
Multiple object tracking (MOT) [1,2] is one of the most important and hectic areas in the field of computer vision research, and recent advances on detection and tracking of multiple objects have led to its application to diverse practical problems such as bio-medical imaging, visual surveillance systems and augmented reality. Due to the success in developing robust object detectors [3,4,5], many recent studies on MOT adopt tracking-by-detection approaches [6,7,8,9,10,11,12,13,14,15,16,17,18,19,20], where the key research topic is data association to link object detections or tracklets (i.e., track fragments) in a sequence of frames for assembling the final trajectories of the objects.
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