Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks

This paper investigates non-orthogonal multiple access (NOMA), cooperative relaying, and energy harvesting to support device-to-device (D2D) transmission. In particular, we deploy multiple relay nodes and a cell-center D2D device which can operate in full-duplex (FD) or half-duplex (HD) mode to comm...

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Main Authors: Huu-Phuc Dang, Minh-Sang Van Nguyen, Dinh-Thuan Do, Hong-Lien Pham, Bassant Selim, Georges Kaddoum
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Online Access:https://ieeexplore.ieee.org/document/9084123/
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author Huu-Phuc Dang
Minh-Sang Van Nguyen
Dinh-Thuan Do
Hong-Lien Pham
Bassant Selim
Georges Kaddoum
author_facet Huu-Phuc Dang
Minh-Sang Van Nguyen
Dinh-Thuan Do
Hong-Lien Pham
Bassant Selim
Georges Kaddoum
author_sort Huu-Phuc Dang
collection DOAJ
description This paper investigates non-orthogonal multiple access (NOMA), cooperative relaying, and energy harvesting to support device-to-device (D2D) transmission. In particular, we deploy multiple relay nodes and a cell-center D2D device which can operate in full-duplex (FD) or half-duplex (HD) mode to communicate with a cell-edge D2D device. In this context, there are two possible signal transmission paths from the base station (BS) to the far D2D user either through multiple decode-and-forward (DF) relay nodes or through a near D2D user. Consequently, we propose three schemes to support D2D-NOMA systems, namely non-energy harvesting relaying (Non-EHR), energy harvesting relaying (EHR) and quantize-map-forward relaying (QMFR) schemes. For each of the proposed schemes, closed-form expressions of the outage probabilities of both D2D users are derived. Extensive Monte-Carlo simulation results are provided to validate the derived analytical expressions. The study results show that the proposed schemes can improve the outage performance compared to conventional orthogonal multiple access (OMA) schemes. Moreover, it is shown that the Non-EHR scheme achieves the best outage performance among the three considered schemes.
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spelling doaj.art-501f79318b0942e49a5c12f7aefef5652022-12-21T22:01:17ZengIEEEIEEE Access2169-35362020-01-018824428246010.1109/ACCESS.2020.29918479084123Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA NetworksHuu-Phuc Dang0https://orcid.org/0000-0002-9643-7287Minh-Sang Van Nguyen1https://orcid.org/0000-0002-3768-6072Dinh-Thuan Do2https://orcid.org/0000-0003-2072-069XHong-Lien Pham3https://orcid.org/0000-0002-6351-8769Bassant Selim4https://orcid.org/0000-0003-4569-6817Georges Kaddoum5https://orcid.org/0000-0002-5025-6624Faculty of Electrical and Electronics Engineering, Ho Chi Minh City University of Technology and Education, Ho Chi Minh City, VietnamFaculty of Electronics Technology, Industrial University of Ho Chi Minh City (IUH), Ho Chi Minh City, VietnamFaculty of Electrical & Electronics Engineering, Wireless Communications Research Group, Ton Duc Thang University, Ho Chi Minh City, VietnamFaculty of Electrical and Electronics Engineering, Ho Chi Minh City University of Technology and Education, Ho Chi Minh City, VietnamElectrical Engineering Department, ETS, University of Quebec, Montreal, QC, CanadaElectrical Engineering Department, ETS, University of Quebec, Montreal, QC, CanadaThis paper investigates non-orthogonal multiple access (NOMA), cooperative relaying, and energy harvesting to support device-to-device (D2D) transmission. In particular, we deploy multiple relay nodes and a cell-center D2D device which can operate in full-duplex (FD) or half-duplex (HD) mode to communicate with a cell-edge D2D device. In this context, there are two possible signal transmission paths from the base station (BS) to the far D2D user either through multiple decode-and-forward (DF) relay nodes or through a near D2D user. Consequently, we propose three schemes to support D2D-NOMA systems, namely non-energy harvesting relaying (Non-EHR), energy harvesting relaying (EHR) and quantize-map-forward relaying (QMFR) schemes. For each of the proposed schemes, closed-form expressions of the outage probabilities of both D2D users are derived. Extensive Monte-Carlo simulation results are provided to validate the derived analytical expressions. The study results show that the proposed schemes can improve the outage performance compared to conventional orthogonal multiple access (OMA) schemes. Moreover, it is shown that the Non-EHR scheme achieves the best outage performance among the three considered schemes.https://ieeexplore.ieee.org/document/9084123/Device-to-devicefull-duplexnon-orthogonal multiple accessrelay selection
spellingShingle Huu-Phuc Dang
Minh-Sang Van Nguyen
Dinh-Thuan Do
Hong-Lien Pham
Bassant Selim
Georges Kaddoum
Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks
IEEE Access
Device-to-device
full-duplex
non-orthogonal multiple access
relay selection
title Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks
title_full Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks
title_fullStr Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks
title_full_unstemmed Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks
title_short Joint Relay Selection, Full-Duplex and Device-to-Device Transmission in Wireless Powered NOMA Networks
title_sort joint relay selection full duplex and device to device transmission in wireless powered noma networks
topic Device-to-device
full-duplex
non-orthogonal multiple access
relay selection
url https://ieeexplore.ieee.org/document/9084123/
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