Raghavendra Chalapathy, Ehsan Zare Borzeshi, and Massimo Piccardi. An investigation of recurrent neural architectures for drug name recognition. arXiv preprint arXiv:1609.07585, 2016a.
Raghavendra Chalapathy, Ehsan Zare Borzeshi, and Massimo Piccardi. Bidirectional lstm-crf for clinical concept extraction. arXiv preprint arXiv:1611.08373, 2016b.
Drausin Wulsin, Justin Blanco, Ram Mani, and Brian Litt. Semi-supervised anomaly detection for eeg waveforms using deep belief nets. In Machine Learning and Applications (ICMLA), 2010 Ninth International Conference on, pages 436–441. IEEE, 2010.
Mutahir Nadeem, Ochaun Marshall, Sarbjit Singh, Xing Fang, and Xiaohong Yuan. Semi-supervised deep neural network for network intrusion detection. 2016.
Hongchao Song, Zhuqing Jiang, Aidong Men, and Bo Yang. A hybrid semi-supervised anomaly detection model for high-dimensional data. Computational intelligence and neuroscience, 2017.
Aaron Tuor, Samuel Kaplan, Brian Hutchinson, Nicole Nichols, and Sean Robinson. Deep learning for unsupervised insider threat detection in structured cybersecurity data streams. arXiv preprint arXiv:1710.00811, 2017.
06
基于训练对象的模型
按照训练对象的区别,我们把训练模型单独划分为两类,变种模型与单分类神经网络。
1. 深度变种模型Deep Hybrid Models(DHM)
Jerone TA Andrews, Edward J Morton, and Lewis D Griffin. Detecting anomalous data using auto-encoders. International Journal of Machine Learning and Computing, 6(1):21, 2016a.
Tolga Ergen, Ali Hassan Mirza, and Suleyman Serdar Kozat. Unsupervised and semi-supervised anomaly detection with lstm neural networks. arXiv preprint arXiv:1710.09207, 2017.
2. 单分类神经网络One-Class Neural Networks(OC-NN)
Raghavendra Chalapathy, Aditya Krishna Menon, and Sanjay Chawla. Anomaly detection using one-class neural networks. arXiv preprint arXiv:1802.06360, 2018a.
Xiuyao Song, Mingxi Wu, Christopher Jermaine, and Sanjay Ranka. Conditional anomaly detection. IEEE Transactions on Knowledge and Data Engineering, 19(5):631–645, 2007.
Raghavendra Chalapathy, Edward Toth, and Sanjay Chawla. Group anomaly detection using deep generative models. arXiv preprint arXiv:1804.04876, 2018b.
Lo¨ıc Bontemps, James McDermott, Nhien-An Le-Khac, et al. Collective anomaly detection based on long short-term memory recurrent neural networks. In International Conference on Future Data and Security Engineering, pages 141–152. Springer, 2016.
Daniel B Araya, Katarina Grolinger, Hany F ElYamany, Miriam AM Capretz, and G Bitsuamlak. Collective contextual anomaly detection framework for smart buildings. In Neural Networks (IJCNN), 2016 International Joint Conference on, pages 511–518. IEEE, 2016.
Naifan Zhuang, Tuoerhongjiang Yusufu, Jun Ye, and Kien A Hua. Group activity recognition with differential recurrent convolutional neural networks. In Automatic Face & Gesture Recognition (FG 2017), 2017 12th IEEE International Conference on, pages 526–531. IEEE, 2017.
08
idea新颖的论文
这里我再给大家推荐8篇idea比较新颖的论文,可供大家阅读与交流。
[1] Liu W, Luo W, Lian D, et al. Future frame prediction for anomaly detection–a new baseline[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2018: 6536-6545.
[2] Gong D, Liu L, Le V, et al. Memorizing normality to detect anomaly: Memory-augmented deep autoencoder for unsupervised anomaly detection[C]//Proceedings of the IEEE International Conference on Computer Vision. 2019: 1705-1714.
[3] Park H, Noh J, Ham B. Learning Memory-guided Normality for Anomaly Detection[C]//Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition. 2020: 14372-14381.
[4] Zhao Y, Deng B, Shen C, et al. Spatio-temporal autoencoder for video anomaly detection[C]//Proceedings of the 25th ACM international conference on Multimedia. 2017: 1933-1941.
[5] Ionescu R T, Khan F S, Georgescu M I, et al. Object-centric auto-encoders and dummy anomalies for abnormal event detection in video[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2019: 7842-7851.
[6] Liu W, Luo W, Li Z, et al. Margin Learning Embedded Prediction for Video Anomaly Detection with A Few Anomalies[C]//IJCAI. 2019: 3023-3030.
[7] Sultani W, Chen C, Shah M. Real-world anomaly detection in surveillance videos[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2018: 6479-6488.
[8] Luo W, Liu W, Gao S. A revisit of sparse coding based anomaly detection in stacked rnn framework[C]//Proceedings of the IEEE International Conference on Computer Vision. 2017: 341-349.
[1] Liu W, Luo W, Lian D, et al. Future frame prediction for anomaly detection–a new baseline[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2018: 6536-6545.
[2] Gong D, Liu L, Le V, et al. Memorizing normality to detect anomaly: Memory-augmented deep autoencoder for unsupervised anomaly detection[C]//Proceedings of the IEEE International Conference on Computer Vision. 2019: 1705-1714.
[3] Park H, Noh J, Ham B. Learning Memory-guided Normality for Anomaly Detection[C]//Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition. 2020: 14372-14381.
[4] Zhao Y, Deng B, Shen C, et al. Spatio-temporal autoencoder for video anomaly detection[C]//Proceedings of the 25th ACM international conference on Multimedia. 2017: 1933-1941.
[5] Ionescu R T, Khan F S, Georgescu M I, et al. Object-centric auto-encoders and dummy anomalies for abnormal event detection in video[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2019: 7842-7851.
[6] Liu W, Luo W, Li Z, et al. Margin Learning Embedded Prediction for Video Anomaly Detection with A Few Anomalies[C]//IJCAI. 2019: 3023-3030.
[7] Sultani W, Chen C, Shah M. Real-world anomaly detection in surveillance videos[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2018: 6479-6488.
[8] Luo W, Liu W, Gao S. A revisit of sparse coding based anomaly detection in stacked rnn framework[C]//Proceedings of the IEEE International Conference on Computer Vision. 2017: 341-349.