Abstract
Recently, most multiple object tracking (MOT) algorithms adopt the idea of tracking-by-detection. Relevant research shows that the performance of the detector obviously affects the tracker, while the improvement of detector is gradually slowing down in recent years. Therefore, trackers using tracklet (short trajectory) are proposed to generate more complete trajectories. Although there are various tracklet generation algorithms, the fragmentation problem still often occurs in crowded scenes. In this paper, we introduce an iterative clustering method that generates more tracklets while maintaining high confidence. Our method shows robust performance on avoiding internal identity switch. Then we propose a deep association method for tracklet association. In terms of motion and appearance, we construct motion evaluation network (MEN) and appearance evaluation network (AEN) to learn long-term features of tracklets for association. In order to explore more robust features of tracklets, a tracklet-based training mechanism is also introduced. Tracklet groups are used as the input of the networks instead of discrete detections. Experimental results show that our training method enhances the performance of the networks. In addition, our tracking framework generates more complete trajectories while maintaining the unique identity of each target as the same time. On the latest MOT 2017 benchmark, we achieve state-of-the-art results.
Highlights
W ITH the rapid development of artificial intelligence technology in recent years, the demand in the field of safety supervision is gradually increasing
We mainly focus on the problems of low integrity and high fragmentation of trajectories that often occur in crowded scenarios
We further develop its potential to build long-term features and introduce a deep association method for tracklet association
Summary
W ITH the rapid development of artificial intelligence technology in recent years, the demand in the field of safety supervision is gradually increasing. To cope with detection failure, tracklet-based trackers are proposed They use short trajectories, known as tracklets, as the basis for target association and generates longer trajectories. In this way, trackers are less sensitive to error detector responses and individual missing detections. Various methods are proposed for tracklet generation, most of them only consider the similarity between targets in adjacent frames and result in drift problem. We introduce an iterative clustering method to ensure the high similarity between any two detections in the same tracklet. A tracklet-based tracking framework that generates more complete trajectories than previous trackers and achieves state-of-the-art performance on the popular MOT 2017 benchmark.
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