Active Eavesdroppers Detection System in Multi-hop Wireless Sensor Networks

Masih Abedini, I. Al-Anbagi
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Abstract

Eavesdropping attacks can threaten the privacy, confidentiality, and authenticity of Wireless Sensor Networks (WSNs). Since the broadcast nature of the wireless channel is vulnerable to overhearing by adversaries, detection of the presence of eavesdroppers in wireless networks can mitigate the impacts of more harmful attacks. Traditionally, researchers have tried to decrease the risk of covert eavesdropping by cryptographic protocols, information-theoretic solutions, or controlling transmission range. These approaches are not suitable for the resource-limited WSNs. In this paper, we propose a novel Active Eavesdroppers Detection (AED) system for multi-hop WSNs. Our proposed system utilizes an out-of-band Unmanned Aerial Vehicle (UAV)-assisted monitoring system in WSNs to measure intranode delays. In addition, the detection system is equipped with a lightweight detection engine, which runs at edge devices, using the Z-test algorithm. We show the effectiveness of our proposed system through simulations. The results show a high detection rate and a low false-positive rate.
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多跳无线传感器网络中的主动窃听检测系统
窃听攻击会威胁到无线传感器网络的隐私性、机密性和真实性。由于无线信道的广播性质很容易被对手窃听,在无线网络中检测窃听者的存在可以减轻更有害攻击的影响。传统上,研究人员试图通过加密协议、信息论解决方案或控制传输范围来降低隐蔽窃听的风险。这些方法不适用于资源有限的wsn。本文提出了一种针对多跳无线传感器网络的主动窃听检测(AED)系统。我们提出的系统在wsn中使用带外无人机(UAV)辅助监控系统来测量内节点延迟。此外,该检测系统配备了一个轻量级的检测引擎,该引擎使用z测试算法在边缘设备上运行。通过仿真验证了系统的有效性。结果表明,该方法检出率高,假阳性率低。
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