光接入网上的量子密钥分配

S. Aleksic, D. Winkler, G. Franzl, A. Poppe, B. Schrenk, F. Hipp
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引用次数: 20

摘要

众所周知,光接入网能够在长距离和合理数量的用户中提供高数据速率。安全性和隐私性一直是公共可访问网络基础设施面临的挑战。特别是在时分多路无源光网络(tdm - pon)中,下行信号通过共享光纤链路中的相同波长通道广播给所有连接的用户,隐私可能是一个关键问题。尽管应用层的加密可以提供高级别的安全性,但这只有在加密密钥分发完全保存的情况下才能实现。另一方面,物理层上的加密,如量子加密,或者更准确地说,量子密钥分发(QKD)是一种非常有前途的实现安全通信的方法。然而,在量子密码学达到在实际网络中实现成本效益所需的成熟水平之前,仍有几个问题必须解决。在本文中,我们讨论了无源光接入网上的量子密钥分发(QKD),这是一种在接入网中经济有效地部署实用量子加密数据通信所需的使能技术。我们研究了在传统光接入网中集成QKD系统的不同方法,并定量评估了它们对潜在实现的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum key distribution over optical access networks
It is well known that optical access networks are able to provide high data rates over long distances and to a reasonable number of users. Security and privacy are always a challenge for public accessible network infrastructures. Especially in time-division multiplexing passive optical networks (TDM-PONs), in which the downstream signal is broadcasted to all users connected via the same wavelength channel in a shared fiber link, privacy can be a critical concern. Although encryption at the application layer can provide a high level of security, this can be achieved only if the encryption key distribution is perfectly save. On the other hand, encryption on the physical layer such as quantum cryptography or, more precisely, quantum key distribution (QKD) is a very promising approach to achieve secure communication. However, there remain several issues that have to be solved before the quantum cryptography reaches the maturity level needed for a cost effective implementation in practical networks. In this paper, we address quantum key distribution (QKD) over passive optical access networks, which is an enabling technology required to cost efficiently deploy practical quantum encrypted data communication in the access area. We study different methods to integrate QKD systems in conventional optical access networks and quantitatively evaluate their suitability for a potential implementation.
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