Weixin Luo scite author profile

Anomaly detection in videos refers to the identification of events that do not conform to expected behavior. However, almost all existing methods tackle the problem by minimizing the reconstruction errors of training data, which cannot guarantee a larger reconstruction error for an abnormal event. In this paper, we propose to tackle the anomaly detection problem within a video prediction framework. To the best of our knowledge, this is the first work that leverages the difference between a predicted future frame and its ground truth to detect an abnormal event. To predict a future frame with higher quality for normal events, other than the commonly used appearance (spatial) constraints on intensity and gradient, we also introduce a motion (temporal) constraint in video prediction by enforcing the optical flow between predicted frames and ground truth frames to be consistent, and this is the first work that introduces a temporal constraint into the video prediction task. Such spatial and motion constraints facilitate the future frame prediction for normal events, and consequently facilitate to identify those abnormal events that do not conform the expectation. Extensive experiments on both a toy dataset and some publicly available datasets validate the effectiveness of our method in terms of robustness to the uncertainty in normal events and the sensitivity to abnormal events. All codes are released in https://github. com/StevenLiuWen/ano_pred_cvpr2018.We also compare the video prediction network based and Auto-Encoder network based anomaly detection. Here for Auto-Encoder network based anomaly detection, we use the Conv-AE [13] which is the latest work and achieves state-of-the-art performance for anomaly detection. Because of the capacity of deep neural network, Auto-Encoder

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A Revisit of Sparse Coding Based Anomaly Detection in Stacked RNN Framework

Luo

Gao

2017

703

509

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Face Aging with Identity-Preserved Conditional Generative Adversarial Networks

et al. 2018

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Remembering history with convolutional LSTM for anomaly detection

2017

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Density Map Regression Guided Detection Network for RGB-D Crowd Counting and Localization

et al. 2019

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Weixin Luo

Future Frame Prediction for Anomaly Detection - A New Baseline

A Revisit of Sparse Coding Based Anomaly Detection in Stacked RNN Framework

Face Aging with Identity-Preserved Conditional Generative Adversarial Networks

Remembering history with convolutional LSTM for anomaly detection

Density Map Regression Guided Detection Network for RGB-D Crowd Counting and Localization

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