ChannelAttention: Utilizing Attention Layers for Accurate Massive MIMO Channel Feedback

Dong Jin Ji; Dong Ho Cho

doi:10.1109/LWC.2021.3057934

ChannelAttention: Utilizing Attention Layers for Accurate Massive MIMO Channel Feedback

Dong Jin Ji, Dong Ho Cho

Dept. of Semiconductor Engineering

Korea Advanced Institute of Science and Technology

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Recently the idea of using deep learning algorithms in massive multiple-input multiple-output channel state information feedback has been studied in great detail. To use the deep-learning-based feedback schemes over the air, they must be able to operate under extremely large antennas. These schemes also need to be verified under a realistic channel model and propagation environment. Thus, we propose ChannelAttention, a deep-learning-based channel state information feedback scheme that utilizes attention layers and residual blocks. Simulations for a 64-by-64 QuaDRiGa channel model based on the 3GPP 38.901 urban microcell scenario show that ChannelAttention surpasses the normalized mean square error and cosine similarity performance of the conventional CsiNet+ scheme across all compression ratio ranges.

Original language	English
Article number	9351552
Pages (from-to)	1079-1082
Number of pages	4
Journal	IEEE Wireless Communications Letters
Volume	10
Issue number	5
DOIs	https://doi.org/10.1109/LWC.2021.3057934
State	Published - May 2021

Keywords

channel feedback
deep learning
Machine learning for communications
multiple-input multiple-output

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10.1109/LWC.2021.3057934

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title = "ChannelAttention: Utilizing Attention Layers for Accurate Massive MIMO Channel Feedback",

abstract = "Recently the idea of using deep learning algorithms in massive multiple-input multiple-output channel state information feedback has been studied in great detail. To use the deep-learning-based feedback schemes over the air, they must be able to operate under extremely large antennas. These schemes also need to be verified under a realistic channel model and propagation environment. Thus, we propose ChannelAttention, a deep-learning-based channel state information feedback scheme that utilizes attention layers and residual blocks. Simulations for a 64-by-64 QuaDRiGa channel model based on the 3GPP 38.901 urban microcell scenario show that ChannelAttention surpasses the normalized mean square error and cosine similarity performance of the conventional CsiNet+ scheme across all compression ratio ranges.",

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AB - Recently the idea of using deep learning algorithms in massive multiple-input multiple-output channel state information feedback has been studied in great detail. To use the deep-learning-based feedback schemes over the air, they must be able to operate under extremely large antennas. These schemes also need to be verified under a realistic channel model and propagation environment. Thus, we propose ChannelAttention, a deep-learning-based channel state information feedback scheme that utilizes attention layers and residual blocks. Simulations for a 64-by-64 QuaDRiGa channel model based on the 3GPP 38.901 urban microcell scenario show that ChannelAttention surpasses the normalized mean square error and cosine similarity performance of the conventional CsiNet+ scheme across all compression ratio ranges.

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ChannelAttention: Utilizing Attention Layers for Accurate Massive MIMO Channel Feedback

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