Safe is the new Smart: PUF-based Authentication for Load Modification-Resistant Smart Meters
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Datum
2022-01Typ
- Journal Article
ETH Bibliographie
no
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Abstract
In the energy sector, IoT manifests in the form of next-generation power grids that provide enhanced electrical stability, efficient power distribution and utilization. The primary feature of a Smart Grid is the presence of an advanced bi-directional communication network between the Smart meters at the consumer end and the servers at the Utility Operators. The Smart meters are broadly vulnerable to attacks on communication and physical systems. We propose a secure and operationally asymmetric mutual authentication and key-exchange protocol for secure communication. Our protocol balances security and efficiency, delegates complex cryptographic operations to the resource-equipped servers, and carefully manages the workload on the resource-constrained Smart meter nodes using unconventional lightweight primitives such as Physically Unclonable Functions. We prove the security of the protocol using well-established cryptographic assumptions. We implement the proposed scheme end-to-end in a Smart meter prototype using commercial-off-the-shelf products, a Utility server and a credential generator as the trusted third party.
Additionally, we demonstrate a physics-based attack named load modification attack on the Smart meter to demonstrate that merely securing the communication channel using authentication does not secure the meter, but requires further protections to ensure the correctness of the reported consumption. Hence, we propose a countermeasure to such attack that goes side-by-side with our protocol implementation. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000408208Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
IEEE Transactions on Dependable and Secure ComputingBand
Seiten / Artikelnummer
Verlag
IEEEThema
Smart grid; Smart meter; Physically unclonable functions (PUFs); Key Exchange Protocols; Authenticated key exchange (AKE); Physics-based attacksOrganisationseinheit
09653 - Paterson, Kenneth / Paterson, Kenneth
ETH Bibliographie
no
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