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ZHOU, L. NANDAL, A. ANSARI, I. POLAT, K. POLÁK, L. DHAKA, A. ZHA, J. ALHUDHAIF, A. ALENEZI, F.
Original Title
Secrecy outage probability and limiting threshold criteria in an optimal SNR regime by maximizing desired transfer rate
Type
journal article in Web of Science
Language
English
Original Abstract
In this paper, the optimum secrecy probability has been calculated using a reduction function that optimizes the transfer rate of the user's signal for a given average broadcast power while minimizing the transfer rate of the eavesdropper's signal to ensure safe transmission. In this work, the signal-to-noise ratio (SNR) of the eavesdropper signal and the received signal are accurately estimated using matrix theory. These approximated SNRs have been studied in relation to the outage probability. By making three distinct assumptions about channel correlation, it has been possible to determine the precise secrecy outage probability. In correlated multi-antenna transmit and receive channels, this research investigates the secrecy performance of three popular diversity combining strategies—maximum ratio combining (MRC), selection combining (SC), and equal gain combining (EGC). In this research, we consider a Rayleigh fading channel with overhead communication between the transmitter and recipient. In this research, we also propose a limiting bounds condition to improve the limits on the outage probability for the Rayleigh fading environment using the three diversity combining methods. Our restricting distribution is threshold-based in order to generate precise limits on the probability of secrecy outage. An application case has been presented which discusses the impact of the proposed model for device to device communication application scenario. Our findings demonstrate that channel correlation substantially influences the probability of a secrecy outage.
Keywords
Channel correlation, Diversity, Eavesdropper signal, Secrecy outage probability, Signal-to-noise ratio
Authors
ZHOU, L.; NANDAL, A.; ANSARI, I.; POLAT, K.; POLÁK, L.; DHAKA, A.; ZHA, J.; ALHUDHAIF, A.; ALENEZI, F.
Released
3. 7. 2023
Publisher
Elsevier
ISBN
2542-6605
Periodical
Internet of Things
Year of study
22
Number
neuvedeno
State
Kingdom of the Netherlands
Pages from
1
Pages to
18
Pages count
URL
https://www.sciencedirect.com/science/article/pii/S2542660523001129
BibTex
@article{BUT183446, author="Liang {Zhou} and Amita {Nandal} and Imran Shafique {Ansari} and Kemal {Polat} and Ladislav {Polák} and Arvind {Dhaka} and Jialing {Zha} and Adi {Alhudhaif} and Fayadh {Alenezi}", title="Secrecy outage probability and limiting threshold criteria in an optimal SNR regime by maximizing desired transfer rate", journal="Internet of Things", year="2023", volume="22", number="neuvedeno", pages="1--18", doi="10.1016/j.iot.2023.100789", issn="2542-6605", url="https://www.sciencedirect.com/science/article/pii/S2542660523001129" }