Flexible XL-MIMO via Array Configuration Codebook: Codebook Design and Array Configuration Training
Haiquan Lu, Hongqi Min, Yong Zeng, Shaodan Ma

TL;DR
This paper introduces an array configuration codebook (ACC) for flexible, cost-effective XL-MIMO systems, enhancing performance and reducing training overhead through optimized array configurations and a two-stage scanning scheme.
Contribution
The paper proposes a novel ACC framework for XL-MIMO, enabling dynamic array configuration without exhaustive search, and extends the approach to wireless localization with improved efficiency.
Findings
ACC improves system performance over traditional antenna selection.
Two-stage scanning reduces training overhead significantly.
Simulation confirms effectiveness in multi-UE and localization scenarios.
Abstract
XL-MIMO emerges as a promising technology to achieve unprecedented enhancements in spectral efficiency and spatial resolution, via orders-of-magnitude increase in the antenna array size. However, the practical issues of high hardware cost and power consumption pose great challenges towards the cost-effective implementation of XL-MIMO. To address such challenges, this paper proposes a novel concept called array configuration codebook (ACC), which enables flexible XL-MIMO cost-effectively and improves the system performance compared with conventional antenna selection (AS) schemes with limited number of RF chains. Specifically, ACC refers to a set of pre-designed array configuration codewords, where each codeword specifies the positions of activated antenna pixels. Then, flexible XL-MIMO architecture can be enabled via dynamical pixel activation based on the designed ACC, without having…
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Taxonomy
TopicsAntenna Design and Optimization · Radio Frequency Integrated Circuit Design · Advanced MIMO Systems Optimization
