Privacy-preserving federated learning cyber-threat detection for intelligent transport systems with blockchain-based security
Author | Moulahi, Tarek |
Author | Jabbar, Rateb |
Author | Alabdulatif, Abdulatif |
Author | Abbas, Sidra |
Author | El Khediri, Salim |
Author | Zidi, Salah |
Author | Rizwan, Muhammad |
Available date | 2023-09-25T11:26:37Z |
Publication Date | 2022-01-01 |
Publication Name | Expert Systems |
Identifier | http://dx.doi.org/10.1111/exsy.13103 |
Citation | Moulahi, T., Jabbar, R., Alabdulatif, A., Abbas, S., El Khediri, S., Zidi, S., & Rizwan, M. (2023). Privacy‐preserving federated learning cyber‐threat detection for intelligent transport systems with blockchain‐based security. Expert Systems, 40(5), e13103. |
ISSN | 02664720 |
Abstract | Artificial intelligence (AI) techniques implemented at a large scale in intelligent transport systems (ITS), have considerably enhanced the vehicles' autonomous behaviour in making independent decisions about cyber threats, attacks, and faults. While, AI techniques are based on data sharing among the vehicles, it is important to note that sensitive data cannot be shared. Thus, federated learning (FL) has been implemented to protect privacy in vehicles. On the other hand, the integrity of data and the safety of aggregation are ensured by using blockchain technology. This paper applied classification approaches to VANET and ITS cyber-threats detection at the vehicle. Subsequently, by using blockchain and by applying an aggregation strategy to different models, models from the previous step were uploaded in a smart contract. Lastly, we returned the updated models to the vehicles. Furthermore, we conducted an experimental study to measure the effectiveness of the proposed prototype. In this paper, the VeReMi data set was distributed in a balanced manner into five parts in the experimental study. Thus, classification techniques were executed by each vehicle separately, and models were generated. Upon the aggregation of the models in blockchain, they were returned to the vehicles. Lastly, the vehicles updated their decision functions and accessed the precision and accuracy of cyber-threat detection. The results indicated that the precision and accuracy decreased by 7.1% on average with comparable F1-score and recall. Our solution ensures the privacy preservation of vehicles whereas blockchain guarantees the safety of aggregation technique and low gas consumption. |
Language | en |
Publisher | John Wiley and Sons Inc |
Subject | blockchain technology cyberthreat data privacy federated learning intelligent transport systems VANET |
Type | Article |
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