Asymptotically Near-Optimal Hybrid Beamforming for mmWave IRS-Aided MIMO Systems
Hybrid beamforming is an emerging technology for massive multiple-input multiple-output (MIMO) systems due to the advantages of lower complexity, cost, and power consumption. Recently, intelligent reflection surface (IRS) has been proposed as the cost-effective technique for robust millimeter-wave (...
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| Format | Journal Article |
| Language | English |
| Published |
14.03.2024
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| Online Access | Get full text |
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| Abstract | Hybrid beamforming is an emerging technology for massive multiple-input
multiple-output (MIMO) systems due to the advantages of lower complexity, cost,
and power consumption. Recently, intelligent reflection surface (IRS) has been
proposed as the cost-effective technique for robust millimeter-wave (mmWave)
MIMO systems. Thus, it is required to jointly optimize a reflection vector and
hybrid beamforming matrices for IRS-aided mmWave MIMO systems. Due to the lack
of RF chain in the IRS, it is unavailable to acquire the TX-IRS and IRS-RX
channels separately. Instead, there are efficient methods to estimate the
so-called effective (or cascaded) channel in literature. We for the first time
derive the near-optimal solution of the aforementioned joint optimization only
using the effective channel. Based on our theoretical analysis, we develop the
practical reflection vector and hybrid beamforming matrices by projecting the
asymptotic solution into the modulus constraint. Via simulations, it is
demonstrated that the proposed construction can outperform the state-of-the-art
(SOTA) method, where the latter even requires the knowledge of the TX-IRS and
IRS-RX channels separately. Furthermore, our construction can provide
robustness for channel estimation errors, which is inevitable for practical
massive MIMO systems. |
|---|---|
| AbstractList | Hybrid beamforming is an emerging technology for massive multiple-input
multiple-output (MIMO) systems due to the advantages of lower complexity, cost,
and power consumption. Recently, intelligent reflection surface (IRS) has been
proposed as the cost-effective technique for robust millimeter-wave (mmWave)
MIMO systems. Thus, it is required to jointly optimize a reflection vector and
hybrid beamforming matrices for IRS-aided mmWave MIMO systems. Due to the lack
of RF chain in the IRS, it is unavailable to acquire the TX-IRS and IRS-RX
channels separately. Instead, there are efficient methods to estimate the
so-called effective (or cascaded) channel in literature. We for the first time
derive the near-optimal solution of the aforementioned joint optimization only
using the effective channel. Based on our theoretical analysis, we develop the
practical reflection vector and hybrid beamforming matrices by projecting the
asymptotic solution into the modulus constraint. Via simulations, it is
demonstrated that the proposed construction can outperform the state-of-the-art
(SOTA) method, where the latter even requires the knowledge of the TX-IRS and
IRS-RX channels separately. Furthermore, our construction can provide
robustness for channel estimation errors, which is inevitable for practical
massive MIMO systems. |
| Author | Lee, Jeongjae Hong, Songnam |
| Author_xml | – sequence: 1 givenname: Jeongjae surname: Lee fullname: Lee, Jeongjae – sequence: 2 givenname: Songnam surname: Hong fullname: Hong, Songnam |
| BackLink | https://doi.org/10.48550/arXiv.2403.09083$$DView paper in arXiv |
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multiple-output (MIMO) systems due to the advantages of lower complexity, cost,
and... |
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| Title | Asymptotically Near-Optimal Hybrid Beamforming for mmWave IRS-Aided MIMO Systems |
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