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引用次数: 2
摘要
智能监控系统迫切需要异常事件的实时机器识别,以解决人力监控资源和数码摄像机极不均衡的问题。此外,机器实时监控所能识别的异常类型数量还不能满足需求。本文提出了一种快速、鲁棒的实时异常检测方法。我们创建了视频能量向量(video - energy vector, VEV),在保持时空信息的同时显著降低了特征图的维数。我们将该方法应用于不同的计算机视觉特征,评估基于SVM的共同特征对不同类型异常事件的有效性。此外,我们采用了不同特征之间的投票模型,大大提高了性能。此外,训练的视频尺寸较小,保证了实时性。改进后的UCF-Crime数据集的结果证明,我们的方法取得了鲁棒性结果,并且对新的异常类型具有泛化能力。
Real-Time Anomaly Detection and Feature Analysis Based on Time Series for Surveillance Video
The intelligent surveillance system urgently needs the real-time machine recognition of abnormal events to solve the extremely uneven human supervision resource and digital cameras. Besides, the number of anomaly types that real-time machine monitoring could recognize has not met the need. This paper presents a fast and robust methodology for real-time anomaly detection under different scenarios. We created the Video-Energy-Vector(VEV) to significantly reduce the dimension of feature maps while maintaining the spatial-temporal information. We applied the proposed method on different computer vision features to evaluate the effectiveness of common features to different types of abnormal events based on SVM. Also, we adopted the voting model among different features, which significantly increased the performance. Further More, the small video size to be trained guaranteed the real-time efficiency. The result of the modified UCF-Crime Dataset has proved that our approach has achieved robust results and had the generalization ability on new anomaly types.
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