Constructive and Destructive Aspects of Adaptive Wormholes for the 5G Tactile Internet

Proceedings of the 9th ACM Conference on Security & Privacy in Wireless and Mobile Networks Pub Date : 2016-07-18 DOI:10.1145/2939918.2939923

Christian T. Zenger, J. Zimmer, M. Pietersz, B. Driessen, C. Paar

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引用次数: 6

Abstract

In this work, we constructively combine adaptive wormholes with channel-reciprocity based key establishment (CRKE), which has been proposed as a lightweight security solution for IoT devices and might be even more important for the 5G Tactile Internet and its embedded low-end devices. We present a new secret key generation protocol where two parties compute shared cryptographic keys under narrow-band multi-path fading models over a delayed digital channel. The proposed approach furthermore enables distance-bounding the key establishment process via the coherence time dependencies of the wireless channel. Our scheme is thoroughly evaluated both theoretically and practically. For the latter, we used a testbed based on the IEEE 802.15.4 standard and performed extensive experiments in a real-world manufacturing environment. Additionally, we demonstrate adaptive wormhole attacks (AWOAs) and their consequences on several physical-layer security schemes. Furthermore, we proposed a countermeasure that minimizes the risk of AWOAs.

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5G触觉互联网自适应虫洞的建设性与破坏性

在这项工作中，我们建设性地将自适应虫洞与基于通道互惠的密钥建立(CRKE)结合起来，这已经被提出作为物联网设备的轻量级安全解决方案，对于5G触觉互联网及其嵌入式低端设备可能更为重要。我们提出了一种新的密钥生成协议，在延迟数字信道上，双方在窄带多径衰落模型下计算共享密钥。该方法进一步通过无线信道的相干时间依赖性实现密钥建立过程的距离边界。我们的方案在理论和实践上都得到了充分的评价。对于后者，我们使用了一个基于IEEE 802.15.4标准的测试平台，并在真实的制造环境中进行了大量的实验。此外，我们还演示了自适应虫洞攻击(awoa)及其对几种物理层安全方案的影响。在此基础上，提出了降低awoa风险的对策。

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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Proceedings of the 9th ACM Conference on Security & Privacy in Wireless and Mobile Networks

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