Secure UAV-to-UAV Systems with Spatially Random UAVs

Jia Ye; Chao Zhang; Hongjiang Lei; Gaofeng Pan; Zhiguo Ding

doi:10.1109/LWC.2018.2879842

Secure UAV-to-UAV Systems with Spatially Random UAVs

Jia Ye^*, Chao Zhang, Hongjiang Lei, Gaofeng Pan, Zhiguo Ding

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

118 Citations (Scopus)

Abstract

In this letter, we investigate the secrecy performance of an unmanned aerial vehicle (UAV)-to-UAV system, where a UAV acts as the source ( {S} ) transmitting information to a legitimate UAV receiver while a group of UAVs trying to eavesdrop the information delivery between {S} and legitimate UAV receiver. The locations of the legitimate UAV receiver and the eavesdropping UAVs are randomly distributed in the coverage space of {S}. We first characterize the statistical characteristics of the signal-to-noise ratio over {S} to the legitimate UAV receiver links; and then the closed-form analytical expressions for secrecy outage probability and the average secrecy capacity have also been derived accordingly. Finally, Monte-Carlo simulations are carried out to verify our proposed analytical models.

Original language	English
Article number	8525328
Pages (from-to)	564-567
Number of pages	4
Journal	IEEE Wireless Communications Letters
Volume	8
Issue number	2
DOIs	https://doi.org/10.1109/LWC.2018.2879842
Publication status	Published - Apr 2019
Externally published	Yes

Keywords

Average secrecy capacity
secrecy outage probability
stochastic geometry
unmanned aerial vehicles

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10.1109/LWC.2018.2879842

Cite this

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title = "Secure UAV-to-UAV Systems with Spatially Random UAVs",

abstract = "In this letter, we investigate the secrecy performance of an unmanned aerial vehicle (UAV)-to-UAV system, where a UAV acts as the source ( \{S\} ) transmitting information to a legitimate UAV receiver while a group of UAVs trying to eavesdrop the information delivery between \{S\} and legitimate UAV receiver. The locations of the legitimate UAV receiver and the eavesdropping UAVs are randomly distributed in the coverage space of \{S\}. We first characterize the statistical characteristics of the signal-to-noise ratio over \{S\} to the legitimate UAV receiver links; and then the closed-form analytical expressions for secrecy outage probability and the average secrecy capacity have also been derived accordingly. Finally, Monte-Carlo simulations are carried out to verify our proposed analytical models.",

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AU - Ye, Jia

AU - Zhang, Chao

AU - Lei, Hongjiang

AU - Pan, Gaofeng

AU - Ding, Zhiguo

PY - 2019/4

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N2 - In this letter, we investigate the secrecy performance of an unmanned aerial vehicle (UAV)-to-UAV system, where a UAV acts as the source ( {S} ) transmitting information to a legitimate UAV receiver while a group of UAVs trying to eavesdrop the information delivery between {S} and legitimate UAV receiver. The locations of the legitimate UAV receiver and the eavesdropping UAVs are randomly distributed in the coverage space of {S}. We first characterize the statistical characteristics of the signal-to-noise ratio over {S} to the legitimate UAV receiver links; and then the closed-form analytical expressions for secrecy outage probability and the average secrecy capacity have also been derived accordingly. Finally, Monte-Carlo simulations are carried out to verify our proposed analytical models.

AB - In this letter, we investigate the secrecy performance of an unmanned aerial vehicle (UAV)-to-UAV system, where a UAV acts as the source ( {S} ) transmitting information to a legitimate UAV receiver while a group of UAVs trying to eavesdrop the information delivery between {S} and legitimate UAV receiver. The locations of the legitimate UAV receiver and the eavesdropping UAVs are randomly distributed in the coverage space of {S}. We first characterize the statistical characteristics of the signal-to-noise ratio over {S} to the legitimate UAV receiver links; and then the closed-form analytical expressions for secrecy outage probability and the average secrecy capacity have also been derived accordingly. Finally, Monte-Carlo simulations are carried out to verify our proposed analytical models.

KW - Average secrecy capacity

KW - secrecy outage probability

KW - stochastic geometry

KW - unmanned aerial vehicles

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Secure UAV-to-UAV Systems with Spatially Random UAVs

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Keywords

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