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arxiv: 2307.00527 · v3 · pith:RXFPUHQVnew · submitted 2023-07-02 · 💻 cs.SE · cs.AI· cs.LG

Graph Neural Networks based Log Anomaly Detection and Explanation

classification 💻 cs.SE cs.AIcs.LG
keywords detectionanomalyeventgraphdatasetsmethodsnetworksneural
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Event logs are widely used to record the status of high-tech systems, making log anomaly detection important for monitoring those systems. Most existing log anomaly detection methods take a log event count matrix or log event sequences as input, exploiting quantitative and/or sequential relationships between log events to detect anomalies. Unfortunately, only considering quantitative or sequential relationships may result in low detection accuracy. To alleviate this problem, we propose a graph-based method for unsupervised log anomaly detection, dubbed Logs2Graphs, which first converts event logs into attributed, directed, and weighted graphs, and then leverages graph neural networks to perform graph-level anomaly detection. Specifically, we introduce One-Class Digraph Inception Convolutional Networks, abbreviated as OCDiGCN, a novel graph neural network model for detecting graph-level anomalies in a collection of attributed, directed, and weighted graphs. By coupling the graph representation and anomaly detection steps, OCDiGCN can learn a representation that is especially suited for anomaly detection, resulting in a high detection accuracy. Importantly, for each identified anomaly, we additionally provide a small subset of nodes that play a crucial role in OCDiGCN's prediction as explanations, which can offer valuable cues for subsequent root cause diagnosis. Experiments on five benchmark datasets show that Logs2Graphs performs at least on par with state-of-the-art log anomaly detection methods on simple datasets while largely outperforming state-of-the-art log anomaly detection methods on complicated datasets.

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  1. Log-based vs Graph-based Approaches to Fault Diagnosis

    cs.SE 2026-04 unverdicted novelty 3.0

    Hybrid models that integrate log encoder representations into graph-based architectures outperform pure log-based or graph-only approaches for fault diagnosis in distributed systems.