Sub-6 GHz 5G网络规划物理层安全错误率分析

2019 14th Annual Conference System of Systems Engineering (SoSE) Pub Date : 2019-05-01 DOI:10.1109/SYSOSE.2019.8753853

Patrick Ormond, Anil Kumar Yerrapragada, B. Kelley

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引用次数: 2

摘要

1、本文研究了基于密钥的物理层安全在未来5G和物联网网络维度上的应用，这是其他作品之前没有考虑到的。结果表明，在单元间隔为500米、重复使用次数为7的情况下，密钥误码率为1%。针对基于预编码器矩阵索引(PMI)的物理层安全方案MOPRO，给出了密钥误码率作为无线网络参数函数的封闭表达式的推导。该方程考虑了瑞利衰落环境，并通过模拟数据进行了验证，结果显示1位码本比2位码本的增益为6dB。还给出了密钥误码率的概率密度函数的封闭统计表达式。直接计算密钥误码率统计的表达式为未来异构网络中基于物理层安全的规划指明了方向。

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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Error Rate Analysis of Physical Layer Security for Sub-6 GHz 5G Network Planning

1, This paper investigates the application of Key-based Physical Layer Security to future 5G and IoT network dimensioning, not previously considered in other works. Results indicate a Key bit Error Rate of 1% at a cell separation of 500m with a reuse of 7. A derivation for a closed form expression of the Key bit Error Rate as a function of radio network parameters is presented for a specific Precoder Matrix Index (PMI) based Physical Layer Security scheme known as MOPRO. The equation, which accounts for Rayleigh fading environments, is verified against simulated data, and shows a gain of 6dB for 1-bit codebooks over 2-bit codebooks. Also shown is a closed form statistical expression for the probability density function of the Key bit Error Rate. The expression for direct computation of Key bit Error Rate statistics points the way forward toward future physical layer security based planning in heterogeneous networks.

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2019 14th Annual Conference System of Systems Engineering (SoSE)

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