Modeling, Simulation, and Performance Analysis of Decoy State Enabled Quantum Key Distribution Systems

Logan O. Mailloux; Michael R. Grimaila; Douglas D. Hodson; Ryan Engle; Colin McLaughlin; Gerald Baumgartner

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Modeling, Simulation, and Performance Analysis of Decoy State Enabled Quantum Key Distribution Systems

机译：具有诱饵状态的量子密钥分发系统的建模，仿真和性能分析

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Quantum Key Distribution (QKD) systems exploit the laws of quantum mechanics to generate secure keying material for cryptographic purposes. To date, several commercially viable decoy state enabled QKD systems have been successfully demonstrated and show promise for high-security applications such as banking, government, and military environments. In this work, a detailed performance analysis of decoy state enabled QKD systems is conducted through model and simulation of several common decoy state configurations. The results of this study uniquely demonstrate that the decoy state protocol can ensure Photon Number Splitting (PNS) attacks are detected with high confidence, while maximizing the system’s quantum throughput at no additional cost. Additionally, implementation security guidance is provided for QKD system developers and users.

机译：量子密钥分配（QKD）系统利用量子力学定律来生成用于加密目的的安全密钥材料。迄今为止，已经成功演示了几种具有商业可行性的诱饵状态的QKD系统，并显示出对银行，政府和军事环境等高安全性应用的希望。在这项工作中，通过对几种常见的诱饵状态配置进行建模和仿真，对启用诱饵状态的QKD系统进行了详细的性能分析。这项研究的结果独特地证明，诱饵状态协议可以确保以高可信度检测到光子数分裂（PNS）攻击，同时最大程度地提高系统的量子吞吐量，而无需额外费用。此外，还为QKD系统开发人员和用户提供了实施安全指南。

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《Applied Sciences》 |2017年第2期|共页
作者
Logan O. Mailloux; Michael R. Grimaila; Douglas D. Hodson; Ryan Engle; Colin McLaughlin; Gerald Baumgartner;
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中图分类土力学、地基基础工程;
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1. Modeling, Simulation, and Performance Analysis of Decoy State Enabled Quantum Key Distribution Systems [J] . Logan O. Mailloux, Michael R. Grimaila, Douglas D. Hodson, Applied Sciences . 2017,第2期

机译：具有诱饵状态的量子密钥分发系统的建模，仿真和性能分析
2. Modeling, Simulation, and Performance Analysis of Decoy State Enabled Quantum Key Distribution Systems [J] . Logan O. Mailloux, Michael R. Grimaila, Douglas D. Hodson, Applied Sciences . 2017,第2期

机译：具有诱饵状态的量子密钥分发系统的建模，仿真和性能分析
3. Modeling decoy state Quantum Key Distribution systems [J] . L O Mailloux, R D Engle, M R Grimaila, Journal of defense modeling and simulatio . 2015,第4期

机译：诱骗状态量子密钥分发系统建模
4. Simulation and Implementation of Decoy State Quantum Key Distribution over 60km Telecom Fiber [C] . Yi Zhao, Bing Qi, Xiongfeng Ma, . 2006

机译：60km电信光纤上诱骗状态量子密钥分配的仿真与实现
5. Conceptual modeling of a quantum key distribution simulation framework using the discrete event system specification [D] . Morris, Jeffrey D. 2014

机译：使用离散事件系统规范的量子密钥分发模拟框架的概念建模
6. Retraction: Hacking on decoy-state quantum key distribution system with partial phase randomization [O] . Shi-Hai Sun, Mu-Sheng Jiang, Xiang-Chun Ma, -1

机译：缩回：利用部分相位随机化破解诱饵状态量子密钥分发系统
7. Modeling, Simulation, and Performance Analysis of Decoy State Enabled Quantum Key Distribution Systems [O] . Logan O. Mailloux, Michael R. Grimaila, Douglas D. Hodson, 2017

机译：诱饵状态量子密钥分配系统的建模，仿真和性能分析
8. Modeling, Simulation, and Analysis of a Decoy State Enabled Quantum Key Distribution System. [R] . Engle, R. D. 2015

机译：具有诱饵状态的量子密钥分配系统的建模，仿真和分析。

Modeling, Simulation, and Performance Analysis of Decoy State Enabled Quantum Key Distribution Systems

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