Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces

Abubakar U. Makarfi; Khaled M. Rabie; Omprakash Kaiwartya; Xingwang Li; Rupak Kharel

doi:10.1109/VTC2020-Spring48590.2020.9128438

Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces

Abubakar U. Makarfi
, Khaled M. Rabie
, Omprakash Kaiwartya
, Xingwang Li
, Rupak Kharel

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

112 Scopus citations

Abstract

This paper studies the physical layer security (PLS) of a vehicular network employing a reconfigurable intelligent surface (RIS). RIS technologies are emerging as an important paradigm for the realisation of smart radio environments, where large numbers of small, low-cost and passive elements, reflect the incident signal with an adjustable phase shift without requiring a dedicated energy source. Inspired by the promising potential of RIS-based transmission, we investigate two vehicular network system models: One with vehicle-to-vehicle communication with the source employing a RIS-based access point, and the other model in the form of a vehicular adhoc network (VANET), with a RIS-based relay deployed on a building. Both models assume the presence of an eavesdropper to investigate the average secrecy capacity of the considered systems. Monte-Carlo simulations are provided throughout to validate the results. The results show that performance of the system in terms of the secrecy capacity is affected by the location of the RIS-relay and the number of RIS cells. The effect of other system parameters such as source power and eavesdropper distances are also studied.

Original language	English
Title of host publication	2020 IEEE 91st Vehicular Technology Conference, VTC Spring 2020 - Proceedings
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781728152073
DOIs	https://doi.org/10.1109/VTC2020-Spring48590.2020.9128438
State	Published - May 2020
Externally published	Yes

Publication series

Name	IEEE Vehicular Technology Conference
Volume	2020-May
ISSN (Print)	1550-2252

Bibliographical note

Publisher Copyright:
© 2020 IEEE.

Keywords

Double-Rayleigh fading channels
physical layer security
reconfigurable intelligent surfaces
secrecy capacity
vehicular communications

ASJC Scopus subject areas

Computer Science Applications
Electrical and Electronic Engineering
Applied Mathematics

Access to Document

10.1109/VTC2020-Spring48590.2020.9128438

Cite this

Makarfi, A. U., Rabie, K. M., Kaiwartya, O., Li, X., & Kharel, R. (2020). Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces. In 2020 IEEE 91st Vehicular Technology Conference, VTC Spring 2020 - Proceedings Article 9128438 (IEEE Vehicular Technology Conference; Vol. 2020-May). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/VTC2020-Spring48590.2020.9128438

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title = "Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces",

abstract = "This paper studies the physical layer security (PLS) of a vehicular network employing a reconfigurable intelligent surface (RIS). RIS technologies are emerging as an important paradigm for the realisation of smart radio environments, where large numbers of small, low-cost and passive elements, reflect the incident signal with an adjustable phase shift without requiring a dedicated energy source. Inspired by the promising potential of RIS-based transmission, we investigate two vehicular network system models: One with vehicle-to-vehicle communication with the source employing a RIS-based access point, and the other model in the form of a vehicular adhoc network (VANET), with a RIS-based relay deployed on a building. Both models assume the presence of an eavesdropper to investigate the average secrecy capacity of the considered systems. Monte-Carlo simulations are provided throughout to validate the results. The results show that performance of the system in terms of the secrecy capacity is affected by the location of the RIS-relay and the number of RIS cells. The effect of other system parameters such as source power and eavesdropper distances are also studied.",

keywords = "Double-Rayleigh fading channels, physical layer security, reconfigurable intelligent surfaces, secrecy capacity, vehicular communications",

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Makarfi, AU, Rabie, KM, Kaiwartya, O, Li, X & Kharel, R 2020, Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces. in 2020 IEEE 91st Vehicular Technology Conference, VTC Spring 2020 - Proceedings., 9128438, IEEE Vehicular Technology Conference, vol. 2020-May, Institute of Electrical and Electronics Engineers Inc. https://doi.org/10.1109/VTC2020-Spring48590.2020.9128438

Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces. / Makarfi, Abubakar U.; Rabie, Khaled M.; Kaiwartya, Omprakash et al.
2020 IEEE 91st Vehicular Technology Conference, VTC Spring 2020 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2020. 9128438 (IEEE Vehicular Technology Conference; Vol. 2020-May).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - This paper studies the physical layer security (PLS) of a vehicular network employing a reconfigurable intelligent surface (RIS). RIS technologies are emerging as an important paradigm for the realisation of smart radio environments, where large numbers of small, low-cost and passive elements, reflect the incident signal with an adjustable phase shift without requiring a dedicated energy source. Inspired by the promising potential of RIS-based transmission, we investigate two vehicular network system models: One with vehicle-to-vehicle communication with the source employing a RIS-based access point, and the other model in the form of a vehicular adhoc network (VANET), with a RIS-based relay deployed on a building. Both models assume the presence of an eavesdropper to investigate the average secrecy capacity of the considered systems. Monte-Carlo simulations are provided throughout to validate the results. The results show that performance of the system in terms of the secrecy capacity is affected by the location of the RIS-relay and the number of RIS cells. The effect of other system parameters such as source power and eavesdropper distances are also studied.

AB - This paper studies the physical layer security (PLS) of a vehicular network employing a reconfigurable intelligent surface (RIS). RIS technologies are emerging as an important paradigm for the realisation of smart radio environments, where large numbers of small, low-cost and passive elements, reflect the incident signal with an adjustable phase shift without requiring a dedicated energy source. Inspired by the promising potential of RIS-based transmission, we investigate two vehicular network system models: One with vehicle-to-vehicle communication with the source employing a RIS-based access point, and the other model in the form of a vehicular adhoc network (VANET), with a RIS-based relay deployed on a building. Both models assume the presence of an eavesdropper to investigate the average secrecy capacity of the considered systems. Monte-Carlo simulations are provided throughout to validate the results. The results show that performance of the system in terms of the secrecy capacity is affected by the location of the RIS-relay and the number of RIS cells. The effect of other system parameters such as source power and eavesdropper distances are also studied.

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Makarfi AU, Rabie KM, Kaiwartya O, Li X, Kharel R. Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces. In 2020 IEEE 91st Vehicular Technology Conference, VTC Spring 2020 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 2020. 9128438. (IEEE Vehicular Technology Conference). doi: 10.1109/VTC2020-Spring48590.2020.9128438

Physical Layer Security in Vehicular Networks with Reconfigurable Intelligent Surfaces

Abstract

Publication series

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this