Towards Adaptive RF Fingerprint-based Authentication of IIoT devices
This work addresses cyber-security vulnerabilities in sensitive IIoT domains, offering a novel approach to device authentication, though it appears incremental as a first step towards more flexible solutions.
The paper tackles the problem of secure authentication for Industrial IoT devices by proposing an adaptive AI-based Radio Frequency Fingerprinting method at the physical layer, achieving highly accurate device authentication in challenging RF environments.
As IoT technologies mature, they are increasingly finding their way into more sensitive domains, such as Medical and Industrial IoT, in which safety and cyber-security are of great importance. While the number of deployed IoT devices continues to increase exponentially, they still present severe cyber-security vulnerabilities. Effective authentication is paramount to support trustworthy IIoT communications, however, current solutions focus on upper-layer identity verification or key-based cryptography which are often inadequate to the heterogeneous IIoT environment. In this work, we present a first step towards achieving powerful and flexible IIoT device authentication, by leveraging AI adaptive Radio Frequency Fingerprinting technique selection and tuning, at the PHY layer for highly accurate device authentication over challenging RF environments.