RIS Selection and Design Over Computable Channels in Massive MIMO mmWave Systems
As an attractive technology in multiple input multiple output (MIMO) systems, reconfigurable intelligent surface (RIS) can improve spectrum efficiency by reshaping the wireless propagation environment. In this article, we consider a RIS-assisted single-user (SU) massive MIMO millimeter wave (mmWave)...
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| Published in | IEEE transactions on communications Vol. 72; no. 12; pp. 8024 - 8034 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.12.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
| ISSN | 0090-6778 1558-0857 |
| DOI | 10.1109/TCOMM.2024.3420785 |
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| Abstract | As an attractive technology in multiple input multiple output (MIMO) systems, reconfigurable intelligent surface (RIS) can improve spectrum efficiency by reshaping the wireless propagation environment. In this article, we consider a RIS-assisted single-user (SU) massive MIMO millimeter wave (mmWave) downlink communication system. Our goal is to maximize spectral efficiency by selecting the optimal RIS, optimizing reflection coefficients of the RIS, and designing hybrid beamforming (HBF) at the base station (BS) and user equipment (UE) through a decoupling strategy. To be more precise, we first suggest a novel approach for computable channels (CC) based on location data and select the optimal RIS reflection path based on CC. we then propose a CC-based method to select the array response vectors and their corresponding path gains and angle information of the mmWave channels between the BS (RIS) and RIS (UE) required to formulate a passive beamforming vector, which is also solved via the manifold optimization (MO)-based algorithm. Lastly, the optimal problem of traditional HBF is decoupled into two stages. In the analog beamforming (ABF) stage, the selected path gains and angle information enable the simultaneous determination of ABF weight vectors. Based on the ABF matrix, in the digital beamforming (DBF) stage, the DBF matrix is designed to maximize spectral efficiency. Simulation results show that spectrum efficiency can be improved by selecting the optimal RIS and the computational complexity can be reduced by designing the RIS phase shifts. |
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| AbstractList | As an attractive technology in multiple input multiple output (MIMO) systems, reconfigurable intelligent surface (RIS) can improve spectrum efficiency by reshaping the wireless propagation environment. In this article, we consider a RIS-assisted single-user (SU) massive MIMO millimeter wave (mmWave) downlink communication system. Our goal is to maximize spectral efficiency by selecting the optimal RIS, optimizing reflection coefficients of the RIS, and designing hybrid beamforming (HBF) at the base station (BS) and user equipment (UE) through a decoupling strategy. To be more precise, we first suggest a novel approach for computable channels (CC) based on location data and select the optimal RIS reflection path based on CC. we then propose a CC-based method to select the array response vectors and their corresponding path gains and angle information of the mmWave channels between the BS (RIS) and RIS (UE) required to formulate a passive beamforming vector, which is also solved via the manifold optimization (MO)-based algorithm. Lastly, the optimal problem of traditional HBF is decoupled into two stages. In the analog beamforming (ABF) stage, the selected path gains and angle information enable the simultaneous determination of ABF weight vectors. Based on the ABF matrix, in the digital beamforming (DBF) stage, the DBF matrix is designed to maximize spectral efficiency. Simulation results show that spectrum efficiency can be improved by selecting the optimal RIS and the computational complexity can be reduced by designing the RIS phase shifts. |
| Author | Li, Wengang Tian, Yiheng Zhu, Hongyu Wang, Mengyao |
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| SubjectTerms | Algorithms Angle of reflection Angles (geometry) Array signal processing Beamforming Channels Communications systems computable channels Decoupling Efficiency Massive MIMO Matrices (mathematics) Millimeter wave communication Millimeter waves MIMO communication Optimization Radio frequency Reconfigurable intelligent surfaces RIS design RIS selection Spectral efficiency Vectors Vectors (mathematics) |
| Title | RIS Selection and Design Over Computable Channels in Massive MIMO mmWave Systems |
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