OMLog: Online Log Anomaly Detection for Evolving System with Meta-learning
October 22, 2024 Β· Declared Dead Β· π IEEE Internet of Things Journal
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Authors
Jiyu Tian, Mingchu Li, Zumin Wang, Liming Chen, Jing Qin, Runfa Zhang
arXiv ID
2410.16612
Category
cs.SE: Software Engineering
Cross-listed
cs.CR
Citations
3
Venue
IEEE Internet of Things Journal
Last Checked
4 months ago
Abstract
Log anomaly detection (LAD) is essential to ensure safe and stable operation of software systems. Although current LAD methods exhibit significant potential in addressing challenges posed by unstable log events and temporal sequence patterns, their limitations in detection efficiency and generalization ability present a formidable challenge when dealing with evolving systems. To construct a real-time and reliable online log anomaly detection model, we propose OMLog, a semi-supervised online meta-learning method, to effectively tackle the distribution shift issue caused by changes in log event types and frequencies. Specifically, we introduce a maximum mean discrepancy-based distribution shift detection method to identify distribution changes in unseen log sequences. Depending on the identified distribution gap, the method can automatically trigger online fine-grained detection or offline fast inference. Furthermore, we design an online learning mechanism based on meta-learning, which can effectively learn the highly repetitive patterns of log sequences in the feature space, thereby enhancing the generalization ability of the model to evolving data. Extensive experiments conducted on two publicly available log datasets, HDFS and BGL, validate the effectiveness of the OMLog approach. When trained using only normal log sequences, the proposed approach achieves the F1-Score of 93.7\% and 64.9\%, respectively, surpassing the performance of the state-of-the-art (SOTA) LAD methods and demonstrating superior detection efficiency.
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