Scenario Analysis of Key Entropy Loss from Improper Quantization Decision in Wireless Physical-Layer Security

2022 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C) Pub Date : 2022-08-04 DOI:10.1109/RI2C56397.2022.9910263

Apirath Limmanee

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Abstract

In wireless physical-layer security, it is usually suggested in literature that eavesdroppers need to locate themselves near legitimate transmitters or receivers if they want to steal some secret key information. By means of scenario analysis, this paper shows that if the eavesdropper knows the channel statistics better than the legitimate stations, e.g., know the K-factor estimates of Rician fading channel, they can exploit these knowledges to derive some secret key information. We define a concept called “improper quantization decision loss $\left(I_{I D L}\right)$” as the entropy loss in the generated key that can be obtained by the eavesdropper. We show step-by-step how the eavesdropper can obtain such information. We also propose a mathematical expression and numerical value of $I_{I D L}$ based on empirical values of channel parameters available in literature. If the legitimate parties are aware of this approximated $I_{I D L}$, they will be able to design suitable privacy amplification scheme for preventing key information loss.

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无线物理层安全中量化决策不当导致密钥熵损失的场景分析

在无线物理层安全中，文献中通常建议，如果窃听者想要窃取一些密钥信息，则需要将自己定位在合法的发射器或接收器附近。通过场景分析，本文表明，如果窃听者比合法电台更了解信道统计信息，例如知道信道衰落的k因子估计，他们可以利用这些信息获得一些秘密密钥信息。我们定义了一个名为“不当量化决策损失$\left(I_{I D L}\right)$”的概念，作为生成的密钥中可以被窃听者获得的熵损失。我们将逐步展示窃听者如何获得这些信息。我们还根据文献中可用的通道参数的经验值提出了$I_{I D L}$的数学表达式和数值。如果合法方知道这个近似的$I_{I D L}$，他们将能够设计合适的隐私放大方案来防止密钥信息丢失。

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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2022 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C)

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