2018
DOI: 10.3390/app8122663
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Chained Anomaly Detection Models for Federated Learning: An Intrusion Detection Case Study

Abstract: The adoption of machine learning and deep learning is on the rise in the cybersecurity domain where these AI methods help strengthen traditional system monitoring and threat detection solutions. However, adversaries too are becoming more effective in concealing malicious behavior amongst large amounts of benign behavior data. To address the increasing time-to-detection of these stealthy attacks, interconnected and federated learning systems can improve the detection of malicious behavior by joining forces and … Show more

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Cited by 231 publications
(132 citation statements)
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References 29 publications
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“…However, there remain several issues that warrant further research before we will be able to deploy DLTbased federated learning in real-world use cases. Most research prototypes, for example, employ DLT-based federated learning to train relatively simple AI models (Pandl et al 2020;Preuveneers et al 2018), while extant research indicates that DLT-based federated learning induces a performance overhead of 5% to 15% (Preuveneers et al 2018). Although this might at first not seem like a large overhead, it could ultimately render DLT-based federated learning prohibitively expensive for more complex AI models.…”
Section: Dlt-based Federated Learningmentioning
confidence: 99%
“…However, there remain several issues that warrant further research before we will be able to deploy DLTbased federated learning in real-world use cases. Most research prototypes, for example, employ DLT-based federated learning to train relatively simple AI models (Pandl et al 2020;Preuveneers et al 2018), while extant research indicates that DLT-based federated learning induces a performance overhead of 5% to 15% (Preuveneers et al 2018). Although this might at first not seem like a large overhead, it could ultimately render DLT-based federated learning prohibitively expensive for more complex AI models.…”
Section: Dlt-based Federated Learningmentioning
confidence: 99%
“…The authors of [16] applied federated learning technology to intrusion detection, and their training and testing accuracy on the CICIDS2017 data set was approximately 97%, which signifies improved efficiency and confidentiality of training. The authors of [17] proposed an intrusion detection method based on the long and short-term memory framework of federated learning with higher classification accuracy than traditional methods.…”
Section: B Intrusion Detectionmentioning
confidence: 99%
“…Preuveneers et al proposed a permissioned blockchainbased FL platform that enables the auditing of trained ML models [12]. Their platform is implemented on Multichain.…”
Section: Related Workmentioning
confidence: 99%