Perturbation-Based Nulling Control Beamforming With Measured Element Radiation Patterns for MU-mMIMO

IF 5.3 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Vehicular Technology Pub Date : 2024-09-03 DOI:10.1109/OJVT.2024.3453951
Yuanzhe Gong;Arish Yaseen;Tingrui Zhang;Robert Morawski;Tho Le-Ngoc
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Abstract

A perturbation-based nulling control beamforming (PNCB) scheme is proposed to effectively mitigate multi-user interference (MUI) in multi-user massive multiple-input multiple-output (MU-mMIMO) systems. This is achieved through the precise alignment of deep and wide radiation nulls in the potential interference directions, considering the realistic heterogeneous element radiation patterns (ERPs). Utilizing measured ERPs from an 8 × 8 antenna array prototype, this study conducts a thorough analysis of ERP variations across different positions in the array. The ERP symmetry knowledge is leveraged to enhance the optimization efficiency by reapplying optimized beamforming vectors to symmetric sub-arrays. The proposed PNCB scheme initiates optimization with weights derived from the linearly constrained minimum variance approach, followed by strategic weight perturbations implemented with particle swarm optimization. This process fine-tunes the sub-optimal beamforming vectors to address discrepancies caused by non-uniform ERPs. Illustrative results demonstrate interference suppression levels exceeding 52.4 dB in multi-user scenarios, without significantly affecting the main-lobe radiation patterns. The nulling width control algorithm achieves an average nulling level ranging from −45.3 dB to −57.7 dB across a 6-degree angle span. Further studies delve into the impact of attenuator and phase-shifter quantization on the nulling level, offering insights into performance variations with different hardware configurations. Experimental validation in an anechoic chamber, involving two users with distinct 20 MHz modulation signals, confirms the effectiveness of the proposed PNCB approach, ensuring reliable and efficient communication in MU-mMIMO systems. The results demonstrate an average enhancement of 22.0 dB in the signal-to-interference ratio, effectively reducing the MUI to near the noise floor. The efficacy of the proposed PNCB scheme is further evidenced by the high-quality received constellation diagrams, with enhanced error vector magnitude performance.
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基于扰动的空心化控制波束成形与用于 MU-mMIMO 的测量元素辐射模式
本文提出了一种基于扰动的空化控制波束成形(PNCB)方案,以有效缓解多用户大规模多输入多输出(MU-mMIMO)系统中的多用户干扰(MUI)。考虑到现实的异质元素辐射模式 (ERP),该方案通过在潜在干扰方向精确调整深宽辐射空来实现。本研究利用 8 × 8 天线阵列原型测得的 ERP,对阵列中不同位置的 ERP 变化进行了深入分析。利用 ERP 对称性知识,将优化后的波束成形矢量重新应用于对称子阵列,从而提高优化效率。所提出的 PNCB 方案利用线性约束最小方差方法得出的权重启动优化,然后利用粒子群优化实施战略性权重扰动。这一过程对次优波束成形向量进行微调,以解决非均匀 ERP 造成的差异。示例结果表明,在多用户场景下,干扰抑制水平超过 52.4 dB,且不会对主叶辐射模式产生显著影响。消隐宽度控制算法在 6 度角跨度范围内实现了 -45.3 dB 至 -57.7 dB 的平均消隐水平。进一步的研究深入探讨了衰减器和移相器量化对消隐电平的影响,深入探讨了不同硬件配置下的性能变化。在电波暗室中进行的实验验证涉及两个使用不同 20 MHz 调制信号的用户,证实了所提出的 PNCB 方法的有效性,确保了 MU-mMIMO 系统的可靠和高效通信。结果表明,信号干扰比平均提高了 22.0 dB,有效地将 MUI 降低到接近噪声本底。高质量的接收星座图和增强的误差矢量幅度性能进一步证明了所提出的 PNCB 方案的功效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
9.60
自引率
0.00%
发文量
25
审稿时长
10 weeks
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