The impact of quantum computing on real-world security: A 5G case study
It addresses potential security vulnerabilities in widely used 5G networks for telecommunications providers and users, though it is incremental in proposing migration strategies rather than solving quantum computing itself.
This paper analyzes how quantum computing could threaten 5G mobile telecommunications security and proposes a phased approach to upgrade cryptography, ensuring backward compatibility for a smooth migration to post-quantum security.
This paper provides a detailed analysis of the impact of quantum computing on the security of 5G mobile telecommunications. This involves considering how cryptography is used in 5G, and how the security of the system would be affected by the advent of quantum computing. This leads naturally to the specification of a series of simple, phased, recommended changes intended to ensure that the security of 5G (as well as 3G and 4G) is not badly damaged if and when large scale quantum computing becomes a practical reality. By exploiting backwards-compatibility features of the 5G security system design, we are able to propose a novel multi-phase approach to upgrading security that allows for a simple and smooth migration to a post-quantum-secure system.