Anomaly detection in extremely crowded scenes using spatio-temporal motion pattern models
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Abstract
Extremely crowded scenes present unique challenges to video analysis that cannot be addressed with conventional approaches. We present a novel statistical framework for modeling the local spatio-temporal motion pattern behavior of extremely crowded scenes. Our key insight is to exploit the dense activity of the crowded scene by modeling the rich motion patterns in local areas, effectively capturing the underlying intrinsic structure they form in the video. In other words, we model the motion variation of local space-time volumes and their spatial-temporal statistical behaviors to characterize the overall behavior of the scene. We demonstrate that by capturing the steady-state motion behavior with these…
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2Topics & keywords
Topics
Keywords
- Computer science
- Artificial intelligence
- Motion (physics)
- Computer vision
- Exploit
- Anomaly detection
- Statistical model
- Pattern recognition (psychology)
UN Sustainable Development Goals
- Sustainable cities and communities
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