Physical-Layer Security Improvement with Reconfigurable Intelligent Surfaces for 6G Wireless Communication Systems

Youn, Janghyuk; Son, Woong; Jung, Bang Chul

doi:10.3390/s21041439

Cited by 15 publications

(9 citation statements)

References 41 publications

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“…Physical layer techniques, such as cooperative nodes, noise randomness and multi-antenna techniques, are usually developed to reduce eavesdropping risk from modern wireless communication systems [44]. Our model and findings can be useful helpful for testing new methods to minimize risk for eavesdropping.…”

Section: Discussionmentioning

confidence: 96%

Eavesdropping Risk Evaluation on Terahertz Wireless Channels in Atmospheric Turbulence

Mei

et al. 2021

IEEE Access

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Wireless networks operating at terahertz (THz) frequencies have been proposed as a promising candidate to support the ever-increasing capacity demand, which cannot be satisfied with existing radio-frequency (RF) technology. Besides this, wireless channels in the THz range could be less vulnerable to interceptions because of their high beam directionality and small signal coverage. However, a risk for eavesdropping can still exist due to the multipath effects caused by unintended scattering when the channels operate in outdoor scenarios, such as in rain, snow, atmospheric turbulence, etc. In this work, eavesdropping risks for THz channel passing atmospheric turbulences are evaluated from a physical layer perspective. Secrecy capacity and outage probability of a point-to-point THz wireless channel are derived by considering the multipath scattering effect. Deterministic and probabilistic eavesdropping attacks are assessed. Their dependence on turbulence strength, eavesdropper's position and channel conditions is investigated.INDEX TERMS Terahertz wireless channel, eavesdropping risk, atmospheric turbulence, multipath scattering.

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Section: Discussionmentioning

confidence: 96%

Eavesdropping Risk Evaluation on Terahertz Wireless Channels in Atmospheric Turbulence

Mei

et al. 2021

IEEE Access

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“…The algorithm showed significant improvements in EE of the D2D network. In [20], the authors used RIS surface to enhance the security of the physical layer in the 6G wireless network. The performance showed a significant improvement in security using RIS.…”

Section: Related Workmentioning

confidence: 99%

Resource Allocation Using Reconfigurable Intelligent Surface (RIS)-Assisted Wireless Networks in Industry 5.0 Scenario

Jamil

Rahman

Abbas

et al. 2022

Telecom

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Mobile communication networks evolved from first-generation (1G) to sixth-generation (6G) and the requirement for quality of services (QoS) and higher bandwidth increased. The evolvement of 6G can be deployed in industry 5.0 to fulfill the future industry requirement. However, deploying 6G in industry 6.0 is very challenging, and installing a reconfigurable intelligent surface (RIS) is an efficient solution. RIS contains the passive elements which are programmed for the tuning of a wireless channel. We formulate an optimization problem to allocate resources in the RIS-supported network. This article presents a mixed-integer non-linear programable problem (MINLP) considering the industry 5.0 scenario and proposes a novel algorithm to solve the optimization problem. We obtain the ϵ optimal solution using the proposed algorithm. The proposed algorithm is evaluated in energy efficiency (EE), throughput, latency, and channel allocation. We compare the performance of several algorithms, and the proposed algorithm outperforms all the algorithms.

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“…Simultaneously, academia and industry have shown tremendous interest to unlock the superior advantages of RIS, and enhance the several performance metrics of the networks, such as sum-secrecy rates, energy efficiency, and spectral efficiency. Different application scenarios of RIS have been introduced, including device-to-device (D2D) communication [21], mmWave communication [22], coordinated multipoint (CoMP) transmission [23], simultaneous wireless information and power transfer (SWIPT) [24], and PLS [25]- [27]. In specific to PLS, [25] adjusted the phase shifts and transmit powers to enhance the PLS performance in RIS-assisted twoway communications.…”

Section: A Related Workmentioning

confidence: 99%

“…The authors in [26] presented the secrecy maximization problem in RIS-assisted multiuser twoway communications by utilizing the signals of the users for degrading the eavesdropping capability. Moreover in [27], the proposed RIS-based channel randomization technique improved the secrecy performance for a downlink cellular wire-tap network. The application of PLS was also extended to the D2D communications underlaying cellular networks where the system interference was utilized to enhance the secrecy performance [28], [29].…”

Section: A Related Workmentioning

confidence: 99%

RIS-Aided Physical Layer Security With Full-Duplex Jamming in Underlay D2D Networks

Khalid

et al. 2021

IEEE Access

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This paper investigates the physical layer security and data transmission for the underlay device-to-device (D2D) networks, and considers a combination of the reconfigurable intelligent surface (RIS) and full-duplex (FD) jamming receiver for the robustness and security enhancements of the system. In the demonstrated spectrum sharing setup, the total power of the D2D networks is conceived to the transmitter and receiver to transmit a private message and emit the artificial noise (AN) signals. To prevent information leakage, a beamforming design is presented for a multi-antenna FD D2D receiver in order to suppress and inject the AN signals in the direction of legitimate users and eavesdropper, respectively. The statistical characterization of end-to-end RIS-assisted wireless channels is presented, and the achievable ergodic secrecy rate of the system is derived in novel approximate expressions. The numerical and simulation results confirm the accuracy and effectiveness of the proposed analytical framework. The results demonstrate an optimal selection of the D2D power allocations for different number of reflecting elements in terms of achievable ergodic secrecy rates of the system. INDEX TERMS Underlay D2D networks, reconfigurable intelligent surface, full-duplex jamming, ergodic secrecy rates.

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Physical-Layer Security Improvement with Reconfigurable Intelligent Surfaces for 6G Wireless Communication Systems

Cited by 15 publications

References 41 publications

Eavesdropping Risk Evaluation on Terahertz Wireless Channels in Atmospheric Turbulence

Eavesdropping Risk Evaluation on Terahertz Wireless Channels in Atmospheric Turbulence

Resource Allocation Using Reconfigurable Intelligent Surface (RIS)-Assisted Wireless Networks in Industry 5.0 Scenario

RIS-Aided Physical Layer Security With Full-Duplex Jamming in Underlay D2D Networks

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