DFT Based Beam-Time Delay Sparse Channel Representation for Channel State Information (CSI) Compression in 5G FDD Massive MIMO Systems

机译：用于5G FDD大规模MIMO系统中信道状态信息（CSI）压缩的基于DFT的波束时间延迟稀疏信道表示

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Massive MIMO is currently a very hot topic for mobile R&D industry due to its large capabilities of high throughput and enhanced coverage for multiple users simultaneously. In the following article a proposal for dealing with the Channel State Information (CSI) overhead for FDD MIMO systems is presented. The idea consists of using a Multidimensional Discrete Fourier Transform (DFT) compression, which exploits the frequency and spatial correlations in order to provide a fully sparse Beam-Time Delay Channel Representation. The proposed idea provides high scalability in a long range of channel compression regimes while presents low computational complexity. Simulation results are presented showing the feasibility of implementation for Full dimensional massive MIMO systems.

机译：大规模MIMO由于其强大的高吞吐能力和同时为多个用户提供的覆盖范围，目前成为移动研发行业的一个非常热门的话题。在下面的文章中，提出了用于处理FDD MIMO系统的信道状态信息（CSI）开销的建议。这个想法包括使用多维离散傅里叶变换（DFT）压缩，它利用频率和空间相关性来提供完全稀疏的波束时间延迟信道表示。所提出的想法在长范围的信道压缩方案中提供了高可扩展性，同时呈现出低的计算复杂度。仿真结果表明了实现全尺寸大规模MIMO系统的可行性。

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《IEEE International Black Sea Conference on Communications and Networking》|2018年|1-5|共5页
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Luis Suárez; Nikita Ryabov; Vladimir Lyashev; Alexander Sherstobitov;
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MIMO communication; Correlation; Discrete Fourier transforms; Three-dimensional displays; Time-frequency analysis; Array signal processing; Matrix decomposition;

机译：MIMO通信;相关性;离散傅里叶变换;三维显示;时频分析;阵列信号处理;矩阵分解;

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专利

1. Compression-Based LMMSE Channel Estimation With Adaptive Sparsity for Massive MIMO in 5G Systems [J] . Ge Lijun, Zhang Yue, Chen Gaojie, IEEE systems journal . 2019,第4期

机译：用于5G系统中大规模MIMO的具有自适应稀疏性的基于压缩的LMMSE信道估计
2. Compressed channel estimation for FDD massive MIMO systems without prior knowledge of sparse channel model [J] . Azizipour Mohammad Javad, Mohamed-Pour Kamal Communications, IET . 2019,第6期

机译：在没有先验稀疏信道模型知识的情况下，用于FDD大规模MIMO系统的压缩信道估计
3. Compressed channel estimation for FDD massive MIMO systems without prior knowledge of sparse channel model [J] . Azizipour Mohammad Javad, Mohamed-Pour Kamal Communications, IET . 2019,第6期

机译：FDD大型MIMO系统的压缩信道估计，无需稀疏信道模型的先验知识
4. DFT Based Beam-Time Delay Sparse Channel Representation for Channel State Information (CSI) Compression in 5G FDD Massive MIMO Systems [C] . Luis Suárez, Nikita Ryabov, Vladimir Lyashev, IEEE International Black Sea Conference on Communications and Networking . 2018

机译：基于DFT的光束时间延迟稀疏信道表示，用于5G FDD大型MIMO系统中的通道状态信息（CSI）压缩
5. Channel Estimation in TDD and FDD-Based Massive MIMO Systems [D] . Mirzaei, Javad. 2021

机译：基于TDD和FDD的大规模MIMO系统的信道估计
6. FDD Channel Estimation Via Covariance Estimation in Wideband Massive MIMO Systems [O] . José P. González-Coma, Pedro Suárez-Casal, Paula M. Castro, 2020

机译：宽带大规模MIMO系统中通过协方差估计的FDD信道估计
7. Dictionary Learning Based Sparse Channel Representation and Estimation for FDD Massive MIMO Systems [O] . Ding, Yacong, Rao, Bhaskar D. 2016

机译：基于字典学习的稀疏信道表示与估计用于FDD大规模mImO系统

DFT Based Beam-Time Delay Sparse Channel Representation for Channel State Information (CSI) Compression in 5G FDD Massive MIMO Systems

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