Title :
Peer to peer authentication for small embedded systems: A zero-knowledge-based approach to security for the Internet of Things
Author :
Flood, Padraig ; Schukat, Michael
Author_Institution :
NUI Galway, OSNA Cyber Security Res. Group, Galway, Ireland
Abstract :
With an estimated 50 billion internet-enabled devices deployed by 2020, the arrival of the Internet of Things (IoT) or Internet of Everything (IoE) raises many questions regarding the suitability and adaptability of current computer security standards to provide privacy, data integrity and end entity authentication between communicating peers. In this paper we present a new protocol which combines zero-knowledge proofs and key exchange mechanisms to provide secure and authenticated communication in static machine-to-machine (M2M) networks. This approach addresses all of the aforementioned issues while also being suitable for devices with limited computational resources and can be deployed in wireless sensor networks. While the protocol requires an a-priori knowledge about the network setup and structure, it guarantees perfect forward secrecy.
Keywords :
Internet of Things; cryptographic protocols; data integrity; data privacy; embedded systems; peer-to-peer computing; wireless sensor networks; Internet of Everything; Internet of Things security; Internet-enabled devices; IoE; IoT; M2M network; computer security standards; data integrity; embedded systems; end entity authentication; key exchange mechanisms; peer to peer authentication; perfect forward secrecy; privacy; static machine-to-machine network; wireless sensor networks; zero-knowledge proofs; zero-knowledge-based approach; Authentication; Elliptic curve cryptography; Embedded systems; Protocols; Diffie-Hellman key exchange; GMW protocol; Zero knowledge proof;
Conference_Titel :
Digital Technologies (DT), 2014 10th International Conference on
Conference_Location :
Zilina
DOI :
10.1109/DT.2014.6868693
