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Near-Field Communications for Extremely Large-Scale MIMO: A Beamspace Perspective

Kangjian Chen, Chenhao Qi, Jingjia Huang, Octavia A. Dobre, Geoffrey Ye Li

2025IEEE Communications Magazine19 citationsDOI

Abstract

Extremely large-scale multiple-input multiple-output (XL-MIMO) is regarded as one of the key techniques to enhance the performance of future wireless communications. Different from regular MIMO, the XL-MIMO shifts part of the communication region from the far field to the near field, where the spherical-wave channel model cannot be accurately approximated by the commonly-adopted planar-wave channel model. As a result, the well-explored far-field beamspace is unsuitable for near-field communications, thereby requiring the exploration of specialized near-field beamspace. In this article, we investigate the near-field communications for XL-MIMO from the perspective of beamspace. Given the spherical wavefront characteristics of the near-field channels, we first map the antenna space to the near-field beamspace with the fractional Fourier transform. Then, we divide the near-field beamspace into three parts, including high mainlobe, low mainlobe, and sidelobe, and provide a comprehensive analysis of these components. Based on the analysis, we demonstrate the advantages of the near-field beamspace over the existing methods. Finally, we point out several applications of the near-field beamspace, and highlight potential directions for future study in the near-field beamspace.

Topics & Concepts

Computer scienceMIMOPerspective (graphical)TelecommunicationsScale (ratio)Field (mathematics)Computer networkArtificial intelligenceChannel (broadcasting)Pure mathematicsPhysicsMathematicsQuantum mechanicsAntenna Design and AnalysisAdvanced MIMO Systems OptimizationEnergy Harvesting in Wireless Networks