Channel state information based physical layer authentication for Wi-Fi sensing systems using deep learning in Internet of things networks

IF 1.5 Q3 TELECOMMUNICATIONS

IET Wireless Sensor Systems Pub Date : 2024-09-10 DOI:10.1049/wss2.12093

Monika Roopak, Yachao Ran, Xiaotian Chen, Gui Yun Tian, Simon Parkinson

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Abstract

Security problems loom big in the fast-growing world of Internet of Things (IoT) networks, which is characterised by unprecedented interconnectedness and data-driven innovation, due to the inherent susceptibility of wireless infrastructure. One of the most pressing concerns is user authentication, which was originally intended to prevent unwanted access to critical information but has since expanded to provide tailored service customisation. We suggest a Wi-Fi sensing-based physical layer authentication method for IoT networks to solve this problem. Our proposed method makes use of raw channel state information (CSI) data from Wi-Fi signals to create a hybrid deep-learning model that combines convolutional neural networks and long short-term memory networks. Rigorous testing yields an astonishing 99.97% accuracy rate, demonstrating the effectiveness of our CSI-based verification. This technology not only strengthens wireless network security but also prioritises efficiency and portability. The findings highlight the practicality of our proposed CSI-based physical layer authentication, which provides lightweight and precise protection for wireless networks in the IoT.

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基于信道状态信息的物联网网络深度学习Wi-Fi传感系统物理层认证

由于无线基础设施固有的易感性，在快速发展的物联网（IoT）网络世界中，安全问题日益突出。物联网（IoT）网络的特点是前所未有的互联性和数据驱动的创新。最紧迫的问题之一是用户身份验证，它最初的目的是防止对关键信息的不必要访问，但后来扩展到提供量身定制的服务。我们提出了一种基于Wi-Fi感知的物联网网络物理层认证方法来解决这个问题。我们提出的方法利用来自Wi-Fi信号的原始通道状态信息（CSI）数据来创建一个混合深度学习模型，该模型结合了卷积神经网络和长短期记忆网络。严格的测试产生了惊人的99.97%的准确率，证明了我们基于csi的验证的有效性。该技术不仅增强了无线网络的安全性，而且优先考虑了效率和可移植性。研究结果强调了我们提出的基于csi的物理层身份验证的实用性，它为物联网中的无线网络提供了轻量级和精确的保护。

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来源期刊

IET Wireless Sensor Systems TELECOMMUNICATIONS-

CiteScore

4.90

自引率

5.30%

发文量

审稿时长

33 weeks

期刊介绍： IET Wireless Sensor Systems is aimed at the growing field of wireless sensor networks and distributed systems, which has been expanding rapidly in recent years and is evolving into a multi-billion dollar industry. The Journal has been launched to give a platform to researchers and academics in the field and is intended to cover the research, engineering, technological developments, innovative deployment of distributed sensor and actuator systems. Topics covered include, but are not limited to theoretical developments of: Innovative Architectures for Smart Sensors;Nano Sensors and Actuators Unstructured Networking; Cooperative and Clustering Distributed Sensors; Data Fusion for Distributed Sensors; Distributed Intelligence in Distributed Sensors; Energy Harvesting for and Lifetime of Smart Sensors and Actuators; Cross-Layer Design and Layer Optimisation in Distributed Sensors; Security, Trust and Dependability of Distributed Sensors. The Journal also covers; Innovative Services and Applications for: Monitoring: Health, Traffic, Weather and Toxins; Surveillance: Target Tracking and Localization; Observation: Global Resources and Geological Activities (Earth, Forest, Mines, Underwater); Industrial Applications of Distributed Sensors in Green and Agile Manufacturing; Sensor and RFID Applications of the Internet-of-Things ("IoT"); Smart Metering; Machine-to-Machine Communications.