NETWORK ATTACK DETECTION USING GRAPH NEURAL NETWORKS
loading.default
item.page.date
item.page.authors
item.page.journal-title
item.page.journal-issn
item.page.volume-title
item.page.publisher
The Conference Hub
item.page.abstract
This paper presents a graph neural network (GNN)-based approach for network attack detection, emphasizing the representation of hosts and flows as heterogeneous graphs. By leveraging topological and relational dependencies, the proposed models—GraphSAGE, GAT, and temporal GNN—demonstrate superior adaptability and accuracy compared to traditional intrusion detection systems. Evaluations on CIC-IDS2017, UNSW-NB15, and real NetFlow data confirm that GNNs effectively capture multi-stage and evolving attack behaviors while maintaining robustness under dynamic network conditions.