On the Trade-off between Output SNR and Secret Key Generation Rate in Switch-and-Stay Combining

2020 IEEE 10th International Conference on Consumer Electronics (ICCE-Berlin) Pub Date : 2020-11-09 DOI:10.1109/ICCE-Berlin50680.2020.9352157

Ruslan Dautov, G. Tsouri

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Abstract

Switch-and-Stay Combining (SSC) is a widely used switched diversity technique that reduces receiver complexity and provides improvement in fading conditions. Until now, the main objective of SSC, was to provide favorable decoding performance. Current work proposes to augment this objective with the main goal of Wireless Physical Layer Security (WPLS) - fast and secure key generation. In a typical practical scenario for consumer electronics, where only one of the two participants employs switched diversity in the form of SSC, we consider a communication protocol where one correspondent always sends a request, while another responds. We show that under this assumption manipulating a switching threshold has a tremendous effect on the upper bound of Key Generation Rate (KGR). Thus, KGR improvement can reach up to 12%. More importantly, we show that maximizing the output SNR does not lead to the highest KGR, meaning that optimizing for both requires resolving a trade-off. If KGR is of priority, the loss in output SNR is approximately 0.4 dB.

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开关保持组合中输出信噪比与密钥生成率的权衡

开关-停留组合(SSC)是一种广泛使用的交换分集技术，它降低了接收机的复杂性，改善了衰落条件。到目前为止，SSC的主要目标是提供良好的解码性能。目前的工作建议用无线物理层安全(WPLS)的主要目标——快速和安全的密钥生成来增强这一目标。在消费电子产品的典型实际场景中，两个参与者中只有一个使用SSC形式的交换分集，我们考虑一个通信协议，其中一个通讯员总是发送请求，而另一个通讯员则响应。我们证明了在这个假设下，操纵交换阈值对密钥生成率(KGR)的上界有巨大的影响。因此，KGR的改进可以达到12%。更重要的是，我们表明最大化输出信噪比并不会导致最高的KGR，这意味着两者的优化都需要解决权衡问题。如果KGR是优先级，输出信噪比的损失约为0.4 dB。

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 IEEE 10th International Conference on Consumer Electronics (ICCE-Berlin)

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