Saved in:
Bibliographic Details
Main Authors: Luo, Haifeng, Garg, Navneet, Holm, Mark, Ratnarajah, Tharmalingam
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.10832
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913267179323392
author Luo, Haifeng
Garg, Navneet
Holm, Mark
Ratnarajah, Tharmalingam
author_facet Luo, Haifeng
Garg, Navneet
Holm, Mark
Ratnarajah, Tharmalingam
contents This paper investigates a robust joint power allocation and beamforming scheme for in-band full-duplex multi-cell multi-user (IBFD-MCMU) networks. A mean-squared error (MSE) minimization problem is formulated with constraints on the power budgets and residual self-interference (RSI) power. The problem is not convex, so we decompose it into two sub-problems: interference management beamforming and power allocation, and give closed-form solutions to the sub-problems. Then we propose an iterative algorithm to yield an overall solution. The computational complexity and convergence behavior of the algorithm are analyzed. Our method can enhance the analog self-interference cancellation (ASIC) depth provided by the precoder with less effect on the downlink communication than the existing null-space projection method, inspiring a low-cost but efficient IBFD transceiver design. It can achieve 42.9% of IBFD gain in terms of spectral efficiency with only antenna isolation, while this value increases to 60.9% with further digital self-interference cancellation (DSIC). Numerical results illustrate that our algorithm is robust to hardware impairments and channel uncertainty. With sufficient ASIC depth, our method reduces the computation time by at least 20% than the existing scheme due to its faster convergence speed at the cost of < 12.5% sum rate loss. The benefit is much more significant with single-antenna users that our algorithm saves at least 40% of the computation time at the cost of < 10% sum rate reduction.
format Preprint
id arxiv_https___arxiv_org_abs_2403_10832
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Joint Power Allocation and Beamforming for In-band Full-duplex Multi-cell Multi-user Networks
Luo, Haifeng
Garg, Navneet
Holm, Mark
Ratnarajah, Tharmalingam
Information Theory
Signal Processing
This paper investigates a robust joint power allocation and beamforming scheme for in-band full-duplex multi-cell multi-user (IBFD-MCMU) networks. A mean-squared error (MSE) minimization problem is formulated with constraints on the power budgets and residual self-interference (RSI) power. The problem is not convex, so we decompose it into two sub-problems: interference management beamforming and power allocation, and give closed-form solutions to the sub-problems. Then we propose an iterative algorithm to yield an overall solution. The computational complexity and convergence behavior of the algorithm are analyzed. Our method can enhance the analog self-interference cancellation (ASIC) depth provided by the precoder with less effect on the downlink communication than the existing null-space projection method, inspiring a low-cost but efficient IBFD transceiver design. It can achieve 42.9% of IBFD gain in terms of spectral efficiency with only antenna isolation, while this value increases to 60.9% with further digital self-interference cancellation (DSIC). Numerical results illustrate that our algorithm is robust to hardware impairments and channel uncertainty. With sufficient ASIC depth, our method reduces the computation time by at least 20% than the existing scheme due to its faster convergence speed at the cost of < 12.5% sum rate loss. The benefit is much more significant with single-antenna users that our algorithm saves at least 40% of the computation time at the cost of < 10% sum rate reduction.
title Joint Power Allocation and Beamforming for In-band Full-duplex Multi-cell Multi-user Networks
topic Information Theory
Signal Processing
url https://arxiv.org/abs/2403.10832