An Efficient Routing Protocol for Quantum Key Distribution Networks

TL;DR

This paper introduces QOLSR, an optimized routing protocol for QKD networks that enhances quantum key utilization and scalability by incorporating link-state awareness and path optimization.

Contribution

The paper proposes QOLSR, a novel routing protocol tailored for large-scale QKD networks, improving key utilization over traditional methods.

Findings

QOLSR significantly increases quantum key utilization.

Simulation results show improved efficiency with growing traffic.

QOLSR outperforms existing routing protocols in QKD networks.

Abstract

Quantum key distribution (QKD) can provide point-to-point information-theoretic secure key services for two connected users. In fact, the development of QKD networks needs more focus from the scientific community in order to broaden the service scale of QKD technology to deliver end-to-end secure key services. Of course, some recent efforts have been made to develop secure communication protocols based on QKD. However, due to the limited key generation capability of QKD devices, high quantum secure key utilization is the major concern for QKD networks. Since traditional routing techniques do not account for the state of quantum secure keys on links, applying them in QKD networks directly will result in underutilization of quantum secure keys. Therefore, an efficient routing protocol for QKD networks, especially for large-scale QKD networks, is desperately needed. In this study, an efficient routing protocol based on optimized link-state routing, namely QOLSR, is proposed for QKD networks. QOLSR considerably improves quantum key utilization in QKD networks through link-state awareness and path optimization. Simulation results demonstrate the validity and efficiency of the proposed QOLSR routing protocol. Most importantly, with the growth of communication traffic, the benefit becomes even more apparent.