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Eavesdropping and Jamming Selection Policy for Suspicious UAVs Based on Low Power Consumption over Fading Channels
Ref: CISTER-TR-190302       Publication Date: 5, Mar, 2019

Eavesdropping and Jamming Selection Policy for Suspicious UAVs Based on Low Power Consumption over Fading Channels

Ref: CISTER-TR-190302       Publication Date: 5, Mar, 2019

Abstract:
Traditional wireless security focuses on preventing unmanned aerial vehicle (UAV) communications from suspicious eavesdropping and/or jamming attacks. However, there is a growing need for governments to keep malicious UAV communications under legitimate surveillance. This paper first investigates a new surveillance paradigm for monitoring suspicious UAV communications via jamming suspicious UAVs. Due to the power consumption limitation, the choice of eavesdropping and jamming will reflect the performance of the UAVs communication. Therefore, the paper analyses the UAV’s eavesdropping and jamming models in different cases, and then proposes the model to optimize the data package in the constraints of lower power consumption, which can be solved by the proposed selection policy. The simulation results validate our proposed selection policy in terms of power consumption and eavesdropped packets. In different fading models, power consumption increases with time, regardless of distances, and our proposed policy performs better in Weibull fading channels in terms of eavesdropped packets.

Authors:
Xiaoming Wang
,
Demin Li
,
Chang Guo
,
Xiaolu Zhang
,
Salil S. Kanhere
,
Kai Li
,
Eduardo Tovar


Published in Sensors, MDPI, Edited: Dr. Carles Gomez, Volume 19, Issue 5, Article No 1126, pp 1-18.

DOI:https://doi.org/10.3390/s19051126.
ISSN: 1424-8220.

Notes: This article belongs to the Special Issue Low Energy Wireless Sensor Networks: Protocols, Architectures and Solutions.



Record Date: 6, Mar, 2019