Structural-Temporal Coupling Anomaly Detection with Dynamic Graph Transformer
Detecting anomalous edges in dynamic graphs is an important task in many applications over evolving triple-based data, such as social networks, transaction management, and epidemiology. A major challenge with this task is the absence of structural-temporal coupling information, which decreases the ability of the representation to distinguish anomalies from normal instances. Existing methods focus on handling independent structural and temporal features with embedding models, which ignore the deep interaction between these two types of information. In this paper, we propose a structural-temporal coupling anomaly detection architecture with a dynamic graph transformer model. Specifically, we introduce structural and temporal features from two integration levels to provide anomaly-aware graph evolutionary patterns. Then, a dynamic graph transformer enhanced by two-dimensional positional encoding is implemented to capture both discrimination and contextual consistency signals. Extensive experiments on six datasets demonstrate that our method outperforms current state-of-the-art models. Finally, a case study illustrates the strength of our method when applied to a real-world task.
View on arXiv@article{zong2025_2505.08330,
title={ Structural-Temporal Coupling Anomaly Detection with Dynamic Graph Transformer },
author={ Chang Zong and Yueting Zhuang and Jian Shao and Weiming Lu },
journal={arXiv preprint arXiv:2505.08330},
year={ 2025 }
}