OTA-Based Data Acquisition and Signal Separation for Digital Predistortion of Multi-User MIMO Transmitters in 5G

Xiaoyu Wang, Yue Li, Chao Yu, W. Hong, A. Zhu
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引用次数: 2

Abstract

In this paper, a non-interruptive over-the-air (OTA) data acquisition method is presented to characterize system nonlinearity and calibrate digital predistortion (DPD) in multi-user (MU) multiple-input multiple-output (MIMO) transmitters with low hardware complexity. Based on a unified system model for fully-digital and hybrid MU-MIMO transmitters, the requirements and difficulties of data acquisition for MU-MIMO DPD are outlined first. A versatile OTA data acquisition technique, featuring a multi-observation forward modelling procedure, is thereby developed to obtain power amplifier (PA) output without interrupting the operation of the MIMO transmitters. By using this method, the output of each PA can be reconstructed instead of directly measuring each PA's output, even when the output signals of PAs are correlated. DPD can therefore be effectively constructed to mitigate the distortion. Experimental results demonstrate that the proposed approach can accurately estimate each PA output and linearize all PAs in the array.
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基于ota的5G多用户MIMO发射机数字预失真数据采集与信号分离
本文提出了一种不间断空中(OTA)数据采集方法,用于低硬件复杂度的多用户(MU)多输入多输出(MIMO)发射机的系统非线性特征和数字预失真(DPD)校准。基于全数字和混合MU-MIMO发射机的统一系统模型,首先概述了MU-MIMO DPD数据采集的要求和难点。因此,开发了一种多功能OTA数据采集技术,该技术具有多观测正演建模程序,可以在不中断MIMO发射机操作的情况下获得功率放大器(PA)输出。使用该方法,即使各PA的输出信号是相关的,也可以重构每个PA的输出,而不是直接测量每个PA的输出。因此,可以有效地构建DPD来减轻失真。实验结果表明,该方法可以准确地估计每个放大器输出,并对阵列中的所有放大器进行线性化。
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