Low-Complexity Robust Beamforming Design for IRS-Aided MISO Systems with Imperfect Channels

Yasaman Omid; Seyyed MohammadMahdi Shahabi; Cunhua Pan; Yansha Deng; Arumugam Nallanathan

doi:10.1109/LCOMM.2021.3049685

Low-Complexity Robust Beamforming Design for IRS-Aided MISO Systems with Imperfect Channels

Yasaman Omid, Seyyed MohammadMahdi Shahabi, Cunhua Pan, Yansha Deng, Arumugam Nallanathan

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

38 Citations (Scopus)

Abstract

In this letter, large-scale intelligent reflecting surface (IRS)-assisted multiple-input single-output (MISO) system is considered in the presence of channel uncertainty. To maximize the average sum rate of the system by jointly optimizing the active beamforming at the BS and the passive phase shifts at the IRS, while satisfying the power constraints, a novel robust beamforming design is proposed by using the penalty dual decomposition (PDD) algorithm. By applying the upper bound maximization/minimization (BSUM) method, in each iteration of the algorithm, the optimal solution for each variable can be obtained with closed-form expression. Simulation results show that the proposed scheme achieves high performance with very low computational complexity.

Original language	English
Article number	9316283
Pages (from-to)	1697-1701
Number of pages	5
Journal	IEEE COMMUNICATIONS LETTERS
Volume	25
Issue number	5
DOIs	https://doi.org/10.1109/LCOMM.2021.3049685
Publication status	Published - May 2021

Keywords

Intelligent reflecting surface
penalty dual decomposition
reconfigurable intelligent surface
robust design

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10.1109/LCOMM.2021.3049685

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title = "Low-Complexity Robust Beamforming Design for IRS-Aided MISO Systems with Imperfect Channels",

abstract = "In this letter, large-scale intelligent reflecting surface (IRS)-assisted multiple-input single-output (MISO) system is considered in the presence of channel uncertainty. To maximize the average sum rate of the system by jointly optimizing the active beamforming at the BS and the passive phase shifts at the IRS, while satisfying the power constraints, a novel robust beamforming design is proposed by using the penalty dual decomposition (PDD) algorithm. By applying the upper bound maximization/minimization (BSUM) method, in each iteration of the algorithm, the optimal solution for each variable can be obtained with closed-form expression. Simulation results show that the proposed scheme achieves high performance with very low computational complexity. ",

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T1 - Low-Complexity Robust Beamforming Design for IRS-Aided MISO Systems with Imperfect Channels

AU - Omid, Yasaman

AU - Shahabi, Seyyed MohammadMahdi

AU - Pan, Cunhua

AU - Deng, Yansha

AU - Nallanathan, Arumugam

PY - 2021/5

Y1 - 2021/5

N2 - In this letter, large-scale intelligent reflecting surface (IRS)-assisted multiple-input single-output (MISO) system is considered in the presence of channel uncertainty. To maximize the average sum rate of the system by jointly optimizing the active beamforming at the BS and the passive phase shifts at the IRS, while satisfying the power constraints, a novel robust beamforming design is proposed by using the penalty dual decomposition (PDD) algorithm. By applying the upper bound maximization/minimization (BSUM) method, in each iteration of the algorithm, the optimal solution for each variable can be obtained with closed-form expression. Simulation results show that the proposed scheme achieves high performance with very low computational complexity.

AB - In this letter, large-scale intelligent reflecting surface (IRS)-assisted multiple-input single-output (MISO) system is considered in the presence of channel uncertainty. To maximize the average sum rate of the system by jointly optimizing the active beamforming at the BS and the passive phase shifts at the IRS, while satisfying the power constraints, a novel robust beamforming design is proposed by using the penalty dual decomposition (PDD) algorithm. By applying the upper bound maximization/minimization (BSUM) method, in each iteration of the algorithm, the optimal solution for each variable can be obtained with closed-form expression. Simulation results show that the proposed scheme achieves high performance with very low computational complexity.

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Low-Complexity Robust Beamforming Design for IRS-Aided MISO Systems with Imperfect Channels

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