Relay-Aided Multi-user OFDM Relying on Joint Wireless Power Transfer and Self-Interference Recycling
Relay-Aided Multi-user OFDM Relying on Joint Wireless Power Transfer and Self-Interference Recycling
Relay-aided multi-user OFDM is investigated under which multiple sources transmit their signals to a multi-antenna relay during the first relaying stage and then the relay amplifies and forwards the composite signal to all destinations during the second stage. The signal transmission of both stages experience frequency selectivity. The relay is powered both by an energy source through the wireless power transfer as well as by the energy recycled from its own self-interference during the second stage. Accordingly, we jointly design the power allocations both at the multiple source nodes and at a common relay node for maximizing the network’s sum-throughput, which poses a large scale non convex problem, regardless whether proper Gaussian signaling (PGS) or improper Gaussian signaling (IGS) is used for signal transmission to the relay. We develop new alternating descent procedures for solving our joint optimization problems,which are based on closed-forms and thus are of very low computational complexity even for large numbers of subcarriers. The results show the superiority of IGS over PGS in terms of both its sum-rate and individual user-rate. Another benefit of IGS over PGS is that the former promises fairer rate distribution across the subcarriers. Moreover, the recycled self-interference also provides a beneficial complementary energy source.
Full-duplexing for transmitting information and recycling energy, multi-user OFDM, large-scale nonconvex optimization, online computation
Nasir, A.
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Tuan, Hoang D.
47dc4b79-2c0f-43bd-8952-d8f4a6a04711
Dutkiewicz, Eryk
758c11d4-76a2-4df8-8ec9-451a8ff91aab
Poor, H. Vincent
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Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Nasir, A.
d97ca733-e302-4089-83a2-3909ca148380
Tuan, Hoang D.
47dc4b79-2c0f-43bd-8952-d8f4a6a04711
Dutkiewicz, Eryk
758c11d4-76a2-4df8-8ec9-451a8ff91aab
Poor, H. Vincent
ace801ca-0c45-451f-9509-217ea29e32e1
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Nasir, A., Tuan, Hoang D., Dutkiewicz, Eryk, Poor, H. Vincent and Hanzo, Lajos
(2021)
Relay-Aided Multi-user OFDM Relying on Joint Wireless Power Transfer and Self-Interference Recycling.
IEEE Transactions on Communications.
(In Press)
Abstract
Relay-aided multi-user OFDM is investigated under which multiple sources transmit their signals to a multi-antenna relay during the first relaying stage and then the relay amplifies and forwards the composite signal to all destinations during the second stage. The signal transmission of both stages experience frequency selectivity. The relay is powered both by an energy source through the wireless power transfer as well as by the energy recycled from its own self-interference during the second stage. Accordingly, we jointly design the power allocations both at the multiple source nodes and at a common relay node for maximizing the network’s sum-throughput, which poses a large scale non convex problem, regardless whether proper Gaussian signaling (PGS) or improper Gaussian signaling (IGS) is used for signal transmission to the relay. We develop new alternating descent procedures for solving our joint optimization problems,which are based on closed-forms and thus are of very low computational complexity even for large numbers of subcarriers. The results show the superiority of IGS over PGS in terms of both its sum-rate and individual user-rate. Another benefit of IGS over PGS is that the former promises fairer rate distribution across the subcarriers. Moreover, the recycled self-interference also provides a beneficial complementary energy source.
Text
MU_OFDM_12_10_21
- Accepted Manuscript
More information
Accepted/In Press date: 10 October 2021
Keywords:
Full-duplexing for transmitting information and recycling energy, multi-user OFDM, large-scale nonconvex optimization, online computation
Identifiers
Local EPrints ID: 451778
URI: http://eprints.soton.ac.uk/id/eprint/451778
ISSN: 0090-6778
PURE UUID: e26781ba-d57d-455f-9e45-007eda95a019
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Date deposited: 27 Oct 2021 16:30
Last modified: 17 Mar 2024 02:35
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Contributors
Author:
A. Nasir
Author:
Hoang D. Tuan
Author:
Eryk Dutkiewicz
Author:
H. Vincent Poor
Author:
Lajos Hanzo
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