Measurements Based Physical Layer Security in Device to Device mm-Wave Communications

Seong Ki Yoo; Paschalis C. Sofotasios; Simon L. Cotton; Lei Zhang; Jae Seung Song; Imran S. Ansari; Young Jin Chun

doi:10.1109/VTC2023-Spring57618.2023.10200931

Measurements Based Physical Layer Security in Device to Device mm-Wave Communications

Seong Ki Yoo, Paschalis C. Sofotasios, Simon L. Cotton, Lei Zhang, Jae Seung Song, Imran S. Ansari, Young Jin Chun

Department of Electrical Engineering

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

In this contribution we evaluate the transmission of confidential information over F composite fading channels in the presence of an eavesdropper (Eve) who also experiences F composite fading. Upon obtaining tractable closed-form expressions for the secure outage probability and the probability of strictly positive secrecy capacity, we analyze extensively the achievable physical layer security performance in the context of mm-wave communications. This is realized with the aid of extensive measurement results from realistic communication scenarios, which show the behavior of composite F fading channels in device-to-device communication scenarios. The offered results provide meaningful insights of theoretical and practical importance that are expected to be useful in the design of mm-wave based communication systems. © 2023 IEEE.

Original language	English
Title of host publication	2023 IEEE 97^th Vehicular Technology Conference (VTC 2023-Spring)
Subtitle of host publication	Proceedings
Publisher	IEEE
Number of pages	5
ISBN (Electronic)	9798350311143
ISBN (Print)	979-8-3503-1115-0
DOIs	https://doi.org/10.1109/VTC2023-Spring57618.2023.10200931
Publication status	Published - 2023
Event	97th IEEE Vehicular Technology Conference (VTC2023-Spring) - Firenzefiera Congress and Exhibition Center, Florence, Italy Duration: 20 Jun 2023 → 23 Jun 2023 https://events.vtsociety.org/vtc2023-spring/

Publication series

Name	IEEE Vehicular Technology Conference
ISSN (Print)	1090-3038
ISSN (Electronic)	2577-2465

Conference

Conference	97th IEEE Vehicular Technology Conference (VTC2023-Spring)
Place	Italy
City	Florence
Period	20/06/23 → 23/06/23
Internet address	https://events.vtsociety.org/vtc2023-spring/

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10.1109/VTC2023-Spring57618.2023.10200931

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Yoo, S. K., Sofotasios, P. C., Cotton, S. L., Zhang, L., Song, J. S., Ansari, I. S., & Chun, Y. J. (2023). Measurements Based Physical Layer Security in Device to Device mm-Wave Communications. In 2023 IEEE 97^th Vehicular Technology Conference (VTC 2023-Spring): Proceedings (IEEE Vehicular Technology Conference). IEEE. https://doi.org/10.1109/VTC2023-Spring57618.2023.10200931

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title = "Measurements Based Physical Layer Security in Device to Device mm-Wave Communications",

abstract = "In this contribution we evaluate the transmission of confidential information over F composite fading channels in the presence of an eavesdropper (Eve) who also experiences F composite fading. Upon obtaining tractable closed-form expressions for the secure outage probability and the probability of strictly positive secrecy capacity, we analyze extensively the achievable physical layer security performance in the context of mm-wave communications. This is realized with the aid of extensive measurement results from realistic communication scenarios, which show the behavior of composite F fading channels in device-to-device communication scenarios. The offered results provide meaningful insights of theoretical and practical importance that are expected to be useful in the design of mm-wave based communication systems. {\textcopyright} 2023 IEEE.",

author = "Yoo, {Seong Ki} and Sofotasios, {Paschalis C.} and Cotton, {Simon L.} and Lei Zhang and Song, {Jae Seung} and Ansari, {Imran S.} and Chun, {Young Jin}",

year = "2023",

doi = "10.1109/VTC2023-Spring57618.2023.10200931",

language = "English",

isbn = "979-8-3503-1115-0",

series = "IEEE Vehicular Technology Conference",

publisher = "IEEE",

booktitle = "2023 IEEE 97th Vehicular Technology Conference (VTC 2023-Spring)",

address = "United States",

note = "97th IEEE Vehicular Technology Conference (VTC2023-Spring) ; Conference date: 20-06-2023 Through 23-06-2023",

url = "https://events.vtsociety.org/vtc2023-spring/",

}

Yoo, SK, Sofotasios, PC, Cotton, SL, Zhang, L, Song, JS, Ansari, IS & Chun, YJ 2023, Measurements Based Physical Layer Security in Device to Device mm-Wave Communications. in 2023 IEEE 97^th Vehicular Technology Conference (VTC 2023-Spring): Proceedings. IEEE Vehicular Technology Conference, IEEE, 97th IEEE Vehicular Technology Conference (VTC2023-Spring), Florence, Italy, 20/06/23. https://doi.org/10.1109/VTC2023-Spring57618.2023.10200931

Measurements Based Physical Layer Security in Device to Device mm-Wave Communications. / Yoo, Seong Ki; Sofotasios, Paschalis C.; Cotton, Simon L. et al.
2023 IEEE 97^th Vehicular Technology Conference (VTC 2023-Spring): Proceedings. IEEE, 2023. (IEEE Vehicular Technology Conference).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - Measurements Based Physical Layer Security in Device to Device mm-Wave Communications

AU - Yoo, Seong Ki

AU - Sofotasios, Paschalis C.

AU - Cotton, Simon L.

AU - Zhang, Lei

AU - Song, Jae Seung

AU - Ansari, Imran S.

AU - Chun, Young Jin

PY - 2023

Y1 - 2023

N2 - In this contribution we evaluate the transmission of confidential information over F composite fading channels in the presence of an eavesdropper (Eve) who also experiences F composite fading. Upon obtaining tractable closed-form expressions for the secure outage probability and the probability of strictly positive secrecy capacity, we analyze extensively the achievable physical layer security performance in the context of mm-wave communications. This is realized with the aid of extensive measurement results from realistic communication scenarios, which show the behavior of composite F fading channels in device-to-device communication scenarios. The offered results provide meaningful insights of theoretical and practical importance that are expected to be useful in the design of mm-wave based communication systems. © 2023 IEEE.

AB - In this contribution we evaluate the transmission of confidential information over F composite fading channels in the presence of an eavesdropper (Eve) who also experiences F composite fading. Upon obtaining tractable closed-form expressions for the secure outage probability and the probability of strictly positive secrecy capacity, we analyze extensively the achievable physical layer security performance in the context of mm-wave communications. This is realized with the aid of extensive measurement results from realistic communication scenarios, which show the behavior of composite F fading channels in device-to-device communication scenarios. The offered results provide meaningful insights of theoretical and practical importance that are expected to be useful in the design of mm-wave based communication systems. © 2023 IEEE.

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M3 - RGC 32 - Refereed conference paper (with host publication)

SN - 979-8-3503-1115-0

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Measurements Based Physical Layer Security in Device to Device mm-Wave Communications

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