An Analytical Study on Eavesdropping Attacks in Wireless Nets of Things

Author:

Li Xuran1,Wang Hao2,Dai Hong-Ning1,Wang Yuanyuan1,Zhao Qinglin1

Affiliation:

1. Faculty of Information Technology, Macau University of Science and Technology, Avenida Wai Long, Room A208, Taipa, Macau

2. Big Data Lab, Faculty of Engineering and Natural Sciences, Norwegian University of Science & Technology, Postboks 1517, 6025 Ålesund, Norway

Abstract

The security of Internet of Things (IoT) has received extensive attention recently. This paper presents a novel analytical model to investigate the eavesdropping attacks in Wireless Net of Things (WNoT). Our model considers various channel conditions, including thepath loss, theshadow fading effect, andRayleigh fading effect. Besides, we also consider the eavesdroppers in WNoT equipped with either omnidirectional antennas or directional antennas. Extensive simulation results show that our model is accurate and effective to model the eavesdropping attacks in WNoT. Besides, our results also indicate that the probability of eavesdropping attacks heavily depends on the shadow fading effect, the path loss effect, Rayleigh fading effect, and the antenna models. In particular, we find that the shadow fading effect is beneficial to the eavesdropping attacks while both the path loss effect and Rayleigh fading effect are detrimental. Besides, using directional antennas at eavesdroppers can also increase the eavesdropping probability. Our results offer some useful implications on designing antieavesdropping schemes in WNoT.

Funder

Macao Science and Technology Development Fund

Publisher

Hindawi Limited

Subject

Computer Networks and Communications,Computer Science Applications

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