Performance Improvement Based on Modified Lossless Quantization (MLQ) for Secret Key Generation Extracted from Received Signal Strength

2020 International Electronics Symposium (IES) Pub Date : 2020-09-01 DOI:10.1109/IES50839.2020.9231640

M. T. Sumadi, Mike Yuliana, Amang Sudarsono

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引用次数: 4

Abstract

In symmetric cryptography systems have problems in the distribution of secret keys. The two users who will communicate require sharing keys through the public channel. The proposed solution to overcome these problems is to utilize information from the physical layer (e.g. RSS). Received Signal Strength (RSS) is an indicator for measuring the power received by wireless devices. The advantage of secret key extraction using physical layer information from a wireless channel is that it allows both devices within the transmission range to extract the secret key together. In this paper, we propose a secret key generation scheme adopted from an existing scheme with modifications to improve performance. Our proposed system is applied to static and dynamic conditions to test performance. The proposed algorithm is able to obtain a reduction in KDR (Key Disagreement Rate) up to 48.42% and an increase in the KGR (Key Generation Rate) up to 23.35% when compared to the existing scheme. Our proposed system also successfully passed the randomness using the NIST test with the approximate value of entropy generated 0.80 in static conditions and 0.81 in dynamic conditions.

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基于改进无损量化(MLQ)的接收信号强度提取密钥生成性能改进

在对称密码系统中存在密钥分配问题。通信的两个用户需要通过公共通道共享密钥。克服这些问题的建议解决方案是利用来自物理层的信息(例如RSS)。接收信号强度(RSS)是衡量无线设备接收功率的指标。使用来自无线信道的物理层信息提取密钥的优点是，它允许传输范围内的两个设备一起提取密钥。在本文中，我们提出了一个密钥生成方案，该方案采用了现有方案，并进行了修改以提高性能。我们提出的系统应用于静态和动态条件下测试性能。与现有方案相比，该算法可将密钥不一致率(KDR)降低48.42%，密钥生成率(KGR)提高23.35%。我们提出的系统也成功地通过了NIST测试，在静态条件下产生的熵的近似值为0.80，在动态条件下产生的熵的近似值为0.81。

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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2020 International Electronics Symposium (IES)

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