Unsupervised Log Anomaly Detection Method Based on Multi-Feature.

Log anomaly detection is an important paradigm for system troubleshooting. Existing log anomaly detection based on Long Short-Term Memory (LSTM) networks is time-consuming to handle long sequences. Transformer model is introduced to promote efficiency. However, most existing Transformer-based log anomaly detection methods convert unstructured log messages into structured templates by log parsing, which introduces parsing errors. They only extract simple semantic feature, which ignores other features, and are generally supervised, relying on the amount of labeled data. To overcome the limitations of existing methods, this paper proposes a novel unsupervised log anomaly detection method based on multi-feature (UMFLog). UMFLog includes two sub-models to consider two kinds of features: semantic feature and statistical feature, respectively. UMFLog applies the log original content with detailed parameters instead of templates or template IDs to avoid log parsing errors. In the first sub-model, UMFLog uses Bidirectional Encoder Representations from Transformers (BERT) instead of random initialization to extract effective semantic feature, and an unsupervised hypersphere-based Transformer model to learn compact log sequence representations and obtain anomaly candidates. In the second sub-model, UMFLog exploits a statistical feature-based Variational Autoencoder (VAE) about word occurrence times to identify the final anomaly from anomaly candidates. Extensive experiments and evaluations are conducted on three real public log datasets. The results show that UMFLog significantly improves F1- scores compared to the state-of-the-art (SOTA) methods because of the multifeature. [ABSTRACT FROM AUTHOR]