Litcius/Paper detail

Timeseries Anomaly Detection using Temporal Hierarchical One-Class Network

Lifeng Shen, Zhuocong Li, James T. Kwok

2020Rare & Special e-Zone (The Hong Kong University of Science and Technology)148 citations

Abstract

Real-world timeseries have complex underlying temporal dynamics and the detection of anomalies is challenging. In this paper, we propose the Temporal Hierarchical One-Class (THOC) network, a temporal one-class classification model for timeseries anomaly detection. It captures temporal dynamics in multiple scales by using a dilated recurrent neural network with skip connections. Using multiple hyperspheres obtained with a hierarchical clustering process, a one-class objective called Multiscale Vector Data Description is defined. This allows the temporal dynamics to be well captured by a set of multi-resolution temporal clusters. To further facilitate representation learning, the hypersphere centers are encouraged to be orthogonal to each other, and a self-supervision task in the temporal domain is added. The whole model can be trained end-to-end. Extensive empirical studies on various real-world timeseries demonstrate that the proposed THOC network outperforms recent strong deep learning baselines on timeseries anomaly detection. © 2020 Neural information processing systems foundation. All rights reserved.

Topics & Concepts

Time seriesAnomaly detectionComputer scienceAnomaly (physics)Series (stratigraphy)Artificial intelligenceClass (philosophy)Data miningPattern recognition (psychology)Machine learningGeologyCondensed matter physicsPaleontologyPhysicsAnomaly Detection Techniques and ApplicationsNetwork Security and Intrusion DetectionTime Series Analysis and Forecasting