Time Series Anomaly Detection with Multiresolution Ensemble Decoding

Recurrent autoencoder is a popular model for time series anomaly detection, in which outliers or abnormal segments are identified by their high reconstruction errors. However, existing recurrent autoencoders can easily suffer from overfitting and error accumulation due to sequential decoding. In this paper, we propose a simple yet efficient recurrent network ensemble called Recurrent Autoencoder with Multiresolution Ensemble Decoding (RAMED). By using decoders with different decoding lengths and a new coarse-to-fine fusion mechanism, lower-resolution information can help longrange decoding for decoders with higher-resolution outputs. A multiresolution shape-forcing loss is further introduced to encourage decoders’ outputs at multiple resolutions to match the input’s global temporal shape. Finally, the output from the decoder with the highest resolution is used to obtain an anomaly score at each time step. Extensive empirical studies on real-world benchmark data sets demonstrate that the proposed RAMED model outperforms recent strong baselines on time series anomaly detection.

Authors

• Lifeng Shen
• Zhongzhong Yu
• Qianli Ma South China University of Technology
• James T. Kwok

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