Jae-Mo Kang scite author profile

The great potentials of massive multiple-input multiple-output (MIMO) in frequency division duplex (FDD) mode can be fully exploited when the downlink channel state information (CSI) is available at base stations, which is difficult due to the large amount of feedback overhead caused by massive antennas. In this paper, we propose the deep learning based joint channel estimation and feedback framework, which comprehensively realizes the estimation, compression, and reconstruction of downlink channels in FDD massive MIMO systems. Two networks are constructed to estimate and feedback channels explicitly and implicitly. The explicit channel estimation and feedback network adopts a multi-signal-to-noise-ratios (SNRs) technique to obtain a single trained channel estimation subnet that works well with different SNRs and employs a deep residual network to reconstruct the channels, while the implicit channel estimation and feedback network directly compresses pilots and sends them back to reduce network parameters. Quantization module is also designed to generate data-bearing bitstreams. Simulation results show that the two proposed networks exhibit excellent performance of reconstruction and are robust to different environments and quantization errors.

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Deep Learning-Based MIMO-NOMA With Imperfect SIC Decoding

Kang

Kim

Chun

2020

IEEE Systems Journal

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A thermomechanical analysis of hot spot formation in condensed-phase, energetic materials

Kang

Butler

Baer

1992

Combustion and Flame

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Deep-Learning-Based Channel Estimation for Wireless Energy Transfer

2018

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Optimal User Grouping for Downlink NOMA

Kang

Kim

2018

IEEE Wireless Commun. Lett.

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Jae-Mo Kang

Deep Learning-Based Channel Estimation for Massive MIMO Systems

Deep Learning-Based MIMO-NOMA With Imperfect SIC Decoding

A thermomechanical analysis of hot spot formation in condensed-phase, energetic materials

Deep-Learning-Based Channel Estimation for Wireless Energy Transfer

Optimal User Grouping for Downlink NOMA

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