Multipoint-Interconnected Quantum Communication Networks

Quantum Computing and Communications [Working Title] Pub Date : 2021-12-18 DOI:10.5772/intechopen.101447

Qingcheng Zhu, Yazi Wang, Lu Lu, Yongli Zhao, Xiaosong Yu, Yuan Cao, Jie Zhang

引用次数: 0

Abstract

As quantum computers with sufficient computational power are becoming mature, the security of classical communication and cryptography may compromise, which is based on the mathematical complexity. Quantum communication technology is a promising solution to secure communication based on quantum mechanics. To meet the secure communication requirements of multiple users, multipoint-interconnected quantum communication networks are specified, including quantum key distribution networks and quantum teleportation networks. The enabling technologies for quantum communication are the important bases for multipoint-interconnected quantum communication networks. To achieve the better connection, resource utilization, and resilience of multipoint-interconnected quantum communication networks, the efficient network architecture and optimization methods are summarized, and open issues in quantum communication networks are discussed.

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多点互联量子通信网络

随着具有足够计算能力的量子计算机的日益成熟，基于数学复杂性的经典通信和密码的安全性可能会受到威胁。量子通信技术是一种基于量子力学的安全通信解决方案。为了满足多用户的安全通信需求，指定了多点互联的量子通信网络，包括量子密钥分发网络和量子隐形传态网络。量子通信使能技术是实现多点互联量子通信网络的重要基础。为了更好地实现多点互联量子通信网络的连接性、资源利用率和弹性，总结了有效的网络架构和优化方法，并讨论了量子通信网络中存在的问题。

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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Quantum Computing and Communications [Working Title]

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