Abstract

In the context of the evolution of in-vehicle electronic and electrical architecture as well as the rapid development of quantum computers, post-quantum algorithms, such as NTRUEncrypt, are of great significance for in-vehicle secure communications. In this paper, we propose and evaluate, for the first time, a NTRUEncrypt enhanced session key negotiation for the in-vehicle Ethernet context. Specifically, the time consumption and memory occupation of the NTRUEncrypt Elliptic Curve Diffie–Hellman (ECDH), and Rivest–Shamir–Adleman (RSA) algorithms, which are used for session key negotiation, are measured and compared. The result shows that, besides the NTRUEncrypt’s particular attribute of resisting quantum computer attacks, the execution speed of session key negotiation using NTRUEncrypt is 66.06 times faster than ECDH, and 1530.98 times faster than RSA at the 128-bit security level. The memory occupation of the algorithms is at the same order of magnitude. As the transport layer security (TLS) protocol can fulfill most performance requirements of the automotive industry, post-quantum enhanced session key negotiation will probably be widely used for in-vehicle Ethernet communication.