Near-Field Channel Estimation for XL-RIS Assisted Multi-User XL-MIMO Systems: Hybrid Beamforming Architectures
- Authors
- Lee, Jeongjae; Chung, Hyeongjin; Cho, Yunseong; Kim, Sunwoo; Hong, Songnam
- Issue Date
- Mar-2025
- Publisher
- Institute of Electrical and Electronics Engineers
- Keywords
- channel estimation; hybrid beamforming; low-rank approximation; Reconfigurable intelligent surface (RIS); XL-MIMO
- Citation
- IEEE Transactions on Communications, v.73, no.3, pp 1560 - 1574
- Pages
- 15
- Indexed
- SCIE
SCOPUS
- Journal Title
- IEEE Transactions on Communications
- Volume
- 73
- Number
- 3
- Start Page
- 1560
- End Page
- 1574
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210620
- DOI
- 10.1109/TCOMM.2024.3454032
- ISSN
- 0090-6778
1558-0857
- Abstract
- Reconfigurable intelligent surface (RIS) is an emerging technique for robust millimeter-wave (mmWave) multiple-input multiple-output (MIMO) systems. In this paper, we study the channel estimation problem for extremely large-scale RIS (XL-RIS) assisted multi-user XL-MIMO systems with hybrid beamforming structures. In this system, we propose an unified channel estimation method that yields a notable estimation accuracy in the near-field BS-RIS and near-field RIS-User channels (in short, near-near field channels), far-near field channels, and far-far field channels. Our key idea is that the effective channels to be estimated can be each factorized as the product of low-rank matrices (i.e., the product of a common matrix and a user-specific coefficient matrix). The common matrix whose columns are the basis of the column space of the BS-RIS channel is efficiently estimated via a collaborative low-rank approximation (CLRA). Leveraging the hybrid beamforming structures, we develop an efficient iterative algorithm that jointly optimizes the user-specific coefficient matrices. Via experiments and complexity analysis, we verify the effectiveness of the proposed channel estimation method (named CLRA-JO) for the three categories of wireless channels.
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