Litcius/Paper detail

Improving Multiple Pedestrian Tracking by Track Management and Occlusion Handling

Daniel Stadler, Jürgen Beyerer

2021129 citationsDOI

Abstract

Multi-pedestrian trackers perform well when targets are clearly visible making the association task quite easy. However, when heavy occlusions are present, a mechanism to re-identify persons is needed. The common approach is to extract visual features from new detections and compare them with the features of previously found tracks. Since those detections can have substantial overlaps with nearby targets – especially in crowded scenarios – the extracted features are insufficient for a reliable re-identification. In contrast, we propose a novel occlusion handling strategy that explicitly models the relation between occluding and occluded tracks outperforming the feature-based approach, while not depending on a separate re-identification network. Furthermore, we improve the track management of a regression-based method in order to bypass missing detections and to deal with tracks leaving the scene at the border of the image. Finally, we apply our tracker in both temporal directions and merge tracklets belonging to the same target, which further enhances the performance. We demonstrate the effectiveness of our tracking components with ablative experiments and surpass the state-of-the-art methods on the three popular pedestrian tracking benchmarks MOT16, MOT17, and MOT20.

Topics & Concepts

BitTorrent trackerComputer scienceArtificial intelligenceMerge (version control)Computer visionTracking (education)PedestrianIdentification (biology)Eye trackingPattern recognition (psychology)EngineeringPsychologyTransport engineeringPedagogyBotanyBiologyInformation retrievalVideo Surveillance and Tracking MethodsFire Detection and Safety SystemsHuman Pose and Action Recognition