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Main Authors: Liu, Yiming, Wang, Rui, Han, Zhu
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.07754
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author Liu, Yiming
Wang, Rui
Han, Zhu
author_facet Liu, Yiming
Wang, Rui
Han, Zhu
contents Reconfigurable intelligent surface (RIS) technology is a promising solution to improve the performance of existing wireless communications. To achieve its cost-effectiveness advantage, there inevitably exist certain hardware impairments in the system. Therefore, it is more reasonable to design passive beamforming in this scenario. Some existing research has considered such problems under transceiver impairments. However, their performance still leaves room for improvement, possibly due to their algorithms not properly handling the fractional structure of the objective function. To address this, the passive beamforming is redesigned in this correspondence paper, taking into account both transceiver impairments and the practical phase-shift model. We tackle the fractional structure of the problem by employing the quadratic transform. The remaining sub-problems are addressed utilizing the penalty-based method and the difference-of-convex programming. Since we provide closed-form solutions for all sub-problems, our algorithm is highly efficient. The simulation results demonstrate the superiority of our proposed algorithm.
format Preprint
id arxiv_https___arxiv_org_abs_2401_07754
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Passive Beamforming For Practical RIS-Assisted Communication Systems With Non-Ideal Hardware
Liu, Yiming
Wang, Rui
Han, Zhu
Signal Processing
Reconfigurable intelligent surface (RIS) technology is a promising solution to improve the performance of existing wireless communications. To achieve its cost-effectiveness advantage, there inevitably exist certain hardware impairments in the system. Therefore, it is more reasonable to design passive beamforming in this scenario. Some existing research has considered such problems under transceiver impairments. However, their performance still leaves room for improvement, possibly due to their algorithms not properly handling the fractional structure of the objective function. To address this, the passive beamforming is redesigned in this correspondence paper, taking into account both transceiver impairments and the practical phase-shift model. We tackle the fractional structure of the problem by employing the quadratic transform. The remaining sub-problems are addressed utilizing the penalty-based method and the difference-of-convex programming. Since we provide closed-form solutions for all sub-problems, our algorithm is highly efficient. The simulation results demonstrate the superiority of our proposed algorithm.
title Passive Beamforming For Practical RIS-Assisted Communication Systems With Non-Ideal Hardware
topic Signal Processing
url https://arxiv.org/abs/2401.07754