In this paper we describe a system for automatic people counting in crowded environments. The approach we propose is a counting-by-detection method based on depth imagery. It is designed to be deployed as an autonomous appliance for crowd analysis in video surveillance application scenarios. Our system performs foreground/background segmentation on depth image streams in order to coarsely segment persons, then depth information is used to localize head candidates which are then tracked in time on an automatically estimated ground plane. The system runs in real-time, at a frame-rate of about 20 fps. We collected a dataset of RGB-D sequences representing three typical and challenging surveillance scenarios, including crowds, queuing and groups. An extensive comparative evaluation is given between our system and more complex, Latent SVM-based head localization for person counting applications.
Real-time people counting from depth imagery of crowded environments / Enrico Bondi;Lorenzo Seidenari;Andrew D. Bagdanov;Alberto Del Bimbo. - ELETTRONICO. - (2014), pp. 337-342. (Intervento presentato al convegno AVSS) [10.1109/AVSS.2014.6918691].
Real-time people counting from depth imagery of crowded environments
BONDI, ENRICO;SEIDENARI, LORENZO;BAGDANOV, ANDREW DAVID;DEL BIMBO, ALBERTO
2014
Abstract
In this paper we describe a system for automatic people counting in crowded environments. The approach we propose is a counting-by-detection method based on depth imagery. It is designed to be deployed as an autonomous appliance for crowd analysis in video surveillance application scenarios. Our system performs foreground/background segmentation on depth image streams in order to coarsely segment persons, then depth information is used to localize head candidates which are then tracked in time on an automatically estimated ground plane. The system runs in real-time, at a frame-rate of about 20 fps. We collected a dataset of RGB-D sequences representing three typical and challenging surveillance scenarios, including crowds, queuing and groups. An extensive comparative evaluation is given between our system and more complex, Latent SVM-based head localization for person counting applications.
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peoplecounting.pdf
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Versione finale referata (Postprint, Accepted manuscript)
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3.49 MB | Adobe PDF |
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