Adaptive Hybrid Heterogeneous IDS for 6LoWPAN
arXiv preprint arXiv:2205.09170, 2022•arxiv.org
IPv6 over Low-powered Wireless Personal Area Networks (6LoWPAN) have grown in
importance in recent years, with the Routing Protocol for Low Power and Lossy Networks
(RPL) emerging as a major enabler. However, RPL can be subject to attack, with severe
consequences. Most proposed IDSs have been limited to specific RPL attacks and typically
assume a stationary environment. In this article, we propose the first adaptive hybrid IDS to
efficiently detect and identify a wide range of RPL attacks (including DIO Suppression …
importance in recent years, with the Routing Protocol for Low Power and Lossy Networks
(RPL) emerging as a major enabler. However, RPL can be subject to attack, with severe
consequences. Most proposed IDSs have been limited to specific RPL attacks and typically
assume a stationary environment. In this article, we propose the first adaptive hybrid IDS to
efficiently detect and identify a wide range of RPL attacks (including DIO Suppression …
IPv6 over Low-powered Wireless Personal Area Networks (6LoWPAN) have grown in importance in recent years, with the Routing Protocol for Low Power and Lossy Networks (RPL) emerging as a major enabler. However, RPL can be subject to attack, with severe consequences. Most proposed IDSs have been limited to specific RPL attacks and typically assume a stationary environment. In this article, we propose the first adaptive hybrid IDS to efficiently detect and identify a wide range of RPL attacks (including DIO Suppression, Increase Rank, and Worst Parent attacks, which have been overlooked in the literature) in evolving data environments. We apply our framework to networks under various levels of node mobility and maliciousness. We experiment with several incremental machine learning (ML) approaches and various 'concept-drift detection' mechanisms (e.g. ADWIN, DDM, and EDDM) to determine the best underlying settings for the proposed scheme.
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