Analysis of outage performance in a 6G-V2X communications system utilising free-space optical quantum key distribution

IF 2.5 Q3 QUANTUM SCIENCE & TECHNOLOGY IET Quantum Communication Pub Date : 2023-08-25 DOI:10.1049/qtc2.12067

Hu Yuan, Daniel S. Fowler, Carsten Maple, Gregory Epiphaniou

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引用次数: 1

Abstract

Quantum-based technologies will provide system engineers with new capabilities for securing data communications. The UK AirQKD project has implemented a Free-Space Optical Quantum Key Distribution (QKD) system to enable the continuous generation of symmetric encryption keys. One of the use cases for the generated keys is to secure Vehicle-to-Everything (V2X) communications. V2X applications would benefit from the certificate-free security provided by QKD for a post-quantum society. How FSO-QKD could integrate into a V2X architecture is examined. An overview of V2X is provided with the role that FSO-QKD could secure V2X data though some obstacles exist. One of the issues with 6G communications is the potential line-of-sight (LOS) considerations between the V2X devices. The modelling required for LOS is examined to analyse the outage performance of the building to infrastructure links in the 6G architecture. The results from the model show that further work is required if 6G LOS communications are going to be relied upon for future safety-critical V2X applications.

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利用自由空间光量子密钥分发的 6G-V2X 通信系统的中断性能分析

量子技术将为系统工程师提供保障数据通信安全的新能力。英国的 AirQKD 项目采用了自由空间光学量子密钥分发 (QKD) 系统，可持续生成对称加密密钥。生成密钥的用例之一是确保车对车（V2X）通信的安全。V2X 应用将受益于 QKD 为后量子社会提供的无证书安全性。本文探讨了 FSO-QKD 如何集成到 V2X 架构中。概述了 V2X 的作用，FSO-QKD 可以确保 V2X 数据的安全，尽管还存在一些障碍。6G 通信的问题之一是 V2X 设备之间潜在的视线（LOS）问题。为分析 6G 架构中建筑物到基础设施链路的中断性能，对 LOS 所需的建模进行了研究。模型结果表明，如果未来的安全关键型 V2X 应用要依靠 6G LOS 通信，还需要进一步的工作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IET Quantum Communication

CiteScore

6.70

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0.00%

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