Connected and autonomous vehicles (CAVs) promise improved safety, efficiency, and convenience but are vulnerable to adversarial attacks due to complex networks. This paper introduces a deep learning (DL) methodology integrating graph neural networks (GNNs) and Variational Autoencoders (VAEs). GNNs capture network relationships, learning robust node embeddings, while VAEs model latent space and reconstruction errors for probabilistic anomaly detection. This approach creates a graph from CAV data, extracts feature with GNNs, and uses VAEs to detect anomalies, forming a robust, updatable architecture to counter emerging threats and mitigate attack vectors. Evaluated on car-hacking datasets, the proposed method improves precision by 3.43%, recall by 2.94%, F-measure by 2.9%, training accuracy by 0.78%, and testing accuracy by 1.09%, with lower model loss, ensuring safer and more resilient autonomous vehicle operations.
Robust Adversarial Attack Detection in Connected and Autonomous Vehicle Networks Using GNN and Variational Autoencoders
Lect. Notes in Networks, Syst.
International Conference on Data Engineering and Communication Technology ; 2024 ; Kuala Lumpur, Malaysia September 28, 2024 - September 29, 2024
Innovations in Communication Networks: Sustainability for Societal and Industrial Impact ; Kapitel : 30 ; 375-388
12.07.2025
14 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
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