Outage Performance of Satellite Terrestrial Full-Duplex Relaying Networks With co-Channel Interference

Tan N. Nguyen; Lam Thanh Tu; Dinh Hieu Tran; Van Duc Phan; Miroslav Voznak; Symeon Chatzinotas; Zhiguo Ding

doi:10.1109/LWC.2022.3175734

Outage Performance of Satellite Terrestrial Full-Duplex Relaying Networks With co-Channel Interference

Tan N. Nguyen, Lam Thanh Tu, Dinh Hieu Tran, Van Duc Phan, Miroslav Voznak, Symeon Chatzinotas, Zhiguo Ding

Electrical Engineering

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

31 Scopus citations

Abstract

This letter investigates the performance of the satellite-terrestrial networks (STN), where a satellite tries to transmit information to a ground user through the help of multiple decode-and-forward relays and the existence of co-channel interference sources. In particular, the full-duplex technique and partial relay selection are applied at the relay to increase the total throughput at the destination, enhance the system reliability, and reduce the complexity. In this context, the outage probability (OP) is computed in a closed-form expression. Numerical results are provided to confirm the accuracy of the proposed mathematical framework. Our findings illustrate that the outage performance can be effectively enhanced by increasing either number of relays or transmit power.

Original language	British English
Pages (from-to)	1478-1482
Number of pages	5
Journal	IEEE Wireless Communications Letters
Volume	11
Issue number	7
DOIs	https://doi.org/10.1109/LWC.2022.3175734
State	Published - 1 Jul 2022

Keywords

Co-channel interference
full-duplex
outage probability
satellite-terrestrial networks
shadowed-rician fading%

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10.1109/LWC.2022.3175734

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title = "Outage Performance of Satellite Terrestrial Full-Duplex Relaying Networks With co-Channel Interference",

abstract = "This letter investigates the performance of the satellite-terrestrial networks (STN), where a satellite tries to transmit information to a ground user through the help of multiple decode-and-forward relays and the existence of co-channel interference sources. In particular, the full-duplex technique and partial relay selection are applied at the relay to increase the total throughput at the destination, enhance the system reliability, and reduce the complexity. In this context, the outage probability (OP) is computed in a closed-form expression. Numerical results are provided to confirm the accuracy of the proposed mathematical framework. Our findings illustrate that the outage performance can be effectively enhanced by increasing either number of relays or transmit power.",

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AU - Voznak, Miroslav

AU - Chatzinotas, Symeon

AU - Ding, Zhiguo

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AB - This letter investigates the performance of the satellite-terrestrial networks (STN), where a satellite tries to transmit information to a ground user through the help of multiple decode-and-forward relays and the existence of co-channel interference sources. In particular, the full-duplex technique and partial relay selection are applied at the relay to increase the total throughput at the destination, enhance the system reliability, and reduce the complexity. In this context, the outage probability (OP) is computed in a closed-form expression. Numerical results are provided to confirm the accuracy of the proposed mathematical framework. Our findings illustrate that the outage performance can be effectively enhanced by increasing either number of relays or transmit power.

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Outage Performance of Satellite Terrestrial Full-Duplex Relaying Networks With co-Channel Interference

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Keywords

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