Loveparade 2010: Automatic video analysis of a crowd disaster

► We analyze video footage from the Loveparade stampede. ► We observe characteristic human motion patterns in congestions. ► Based on our findings, we develop a system for detecting dangerous crowd behavior. On July 24, 2010, 21 people died and more than 500 were injured in a stampede at the Lovepar...

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Bibliographic Details
Published in:Computer vision and image understanding 2012-03, Vol.116 (3), p.307-319
Main Authors: Krausz, Barbara, Bauckhage, Christian
Format: Article
Language:English
Subjects:
Chains
Computer simulation
Computer vision
Congestion
Crowd behavior
Crowd dynamics
Crowd turbulence
Dangerous
Disasters
Mathematical models
Music
Optical flow
Preserves
Video analysis
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Summary:► We analyze video footage from the Loveparade stampede. ► We observe characteristic human motion patterns in congestions. ► Based on our findings, we develop a system for detecting dangerous crowd behavior. On July 24, 2010, 21 people died and more than 500 were injured in a stampede at the Loveparade, a music festival, in Duisburg, Germany. Although this tragic incident is but one among many terrible crowd disasters that occur during pilgrimage, sports events, or other mass gatherings, it stands out for it has been well documented: there were a total of seven security cameras monitoring the Loveparade and the chain of events that led to disaster was meticulously reconstructed. In this paper, we present an automatic, video-based analysis of the events in Duisburg. While physical models and simulations of human crowd behavior have been reported before, to the best of our knowledge, automatic vision systems that detect congestions and dangerous crowd turbulences in real world settings were not reported yet. Derived from lessons learned from the video footage of the Loveparade, our system is able to detect motion patterns that characterize crowd behavior in stampedes. Based on our analysis, we propose methods for the detection and early warning of dangerous situations during mass events. Since our approach mainly relies on optical flow computations, it runs in real-time and preserves privacy of the people being monitored.
ISSN:1077-3142
1090-235X
DOI:10.1016/j.cviu.2011.08.006