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Main Authors: Xu, Tianxiang, Wen, Zhichao, Zhao, Xinyu, Hu, Qi, Li, Yan, Liu, Chang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.07285
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author Xu, Tianxiang
Wen, Zhichao
Zhao, Xinyu
Hu, Qi
Li, Yan
Liu, Chang
author_facet Xu, Tianxiang
Wen, Zhichao
Zhao, Xinyu
Hu, Qi
Li, Yan
Liu, Chang
contents The escalating complexity of network threats and the inherent class imbalance in traffic data present formidable challenges for modern Intrusion Detection Systems (IDS). While Graph Neural Networks (GNNs) excel in modeling topological structures and Temporal Convolutional Networks (TCNs) are proficient in capturing time-series dependencies, a framework that synergistically integrates both while explicitly addressing data imbalance remains an open challenge. This paper introduces a novel deep learning framework, named Gated Temporal Convolutional Network and Graph (GTCN-G), engineered to overcome these limitations. Our model uniquely fuses a Gated TCN (G-TCN) for extracting hierarchical temporal features from network flows with a Graph Convolutional Network (GCN) designed to learn from the underlying graph structure. The core innovation lies in the integration of a residual learning mechanism, implemented via a Graph Attention Network (GAT). This mechanism preserves original feature information through residual connections, which is critical for mitigating the class imbalance problem and enhancing detection sensitivity for rare malicious activities (minority classes). We conducted extensive experiments on two public benchmark datasets, UNSW-NB15 and ToN-IoT, to validate our approach. The empirical results demonstrate that the proposed GTCN-G model achieves state-of-the-art performance, significantly outperforming existing baseline models in both binary and multi-class classification tasks.
format Preprint
id arxiv_https___arxiv_org_abs_2510_07285
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle GTCN-G: A Residual Graph-Temporal Fusion Network for Imbalanced Intrusion Detection
Xu, Tianxiang
Wen, Zhichao
Zhao, Xinyu
Hu, Qi
Li, Yan
Liu, Chang
Machine Learning
Artificial Intelligence
The escalating complexity of network threats and the inherent class imbalance in traffic data present formidable challenges for modern Intrusion Detection Systems (IDS). While Graph Neural Networks (GNNs) excel in modeling topological structures and Temporal Convolutional Networks (TCNs) are proficient in capturing time-series dependencies, a framework that synergistically integrates both while explicitly addressing data imbalance remains an open challenge. This paper introduces a novel deep learning framework, named Gated Temporal Convolutional Network and Graph (GTCN-G), engineered to overcome these limitations. Our model uniquely fuses a Gated TCN (G-TCN) for extracting hierarchical temporal features from network flows with a Graph Convolutional Network (GCN) designed to learn from the underlying graph structure. The core innovation lies in the integration of a residual learning mechanism, implemented via a Graph Attention Network (GAT). This mechanism preserves original feature information through residual connections, which is critical for mitigating the class imbalance problem and enhancing detection sensitivity for rare malicious activities (minority classes). We conducted extensive experiments on two public benchmark datasets, UNSW-NB15 and ToN-IoT, to validate our approach. The empirical results demonstrate that the proposed GTCN-G model achieves state-of-the-art performance, significantly outperforming existing baseline models in both binary and multi-class classification tasks.
title GTCN-G: A Residual Graph-Temporal Fusion Network for Imbalanced Intrusion Detection
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2510.07285