控制毫米波大规模MIMO系统的复杂性:有效的信道估计和波束形成

S. Montagner, N. Benvenuto, S. Tomasin
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引用次数: 7

摘要

大规模多输入多输出(MIMO)毫米波(MMW)通信允许紧凑的实现和高效的波束形成。在本文中,我们重点研究了编码调制路径共享多天线(CPMA)架构中,当可用的射频(RF)链数量有限,并且通过模拟和数字信号处理相结合进行波束形成时,大规模MIMO信道的估计问题。天线被组织成均匀平面阵列(upa)。提出的解决方案是基于信道子矩阵的估计,并利用UPA模型的特性。特别是,我们首先以简化进一步处理的方式组织UPA索引,然后我们提出一个最小化RF链数量的训练序列。最后,我们不是估计子通道矩阵本身,而是通过基于利用UPA模型特性的四维傅里叶变换的有效后处理技术来估计其条目的参数。
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Taming the complexity of mm-wave massive MIMO systems: Efficient channel estimation and beamforming
Massive multiple input multiple output (MIMO) millimeter wave (MMW) communications allow for a compact implementation and efficient beamforming. In this paper we focus on the problem of estimating the massive MIMO channel in a code modulated path sharing multi-antenna (CPMA) architecture, when a limited number of radio frequency (RF) chains is available, and beamforming is performed through a combination of analog and digital signal processing. Antennas are organized in uniform planar arrays (UPAs). The proposed solution is based on estimation of a channel sub-matrix and exploits properties of the UPA model. In particular, we first organize UPA indices in a way that simplifies further processing, then we propose a training sequence that minimizes the number of RF chains. Lastly, rather than estimating the subchannel matrix itself we estimate parameters of its entries by an efficient post-processing technique based on a four dimensional Fourier transform that exploits properties of the UPA model.
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