Institute for Communication Technologies and Embedded Systems

Compressive Sampled CSI Feedback Method Based on Deep Learning for FDD Massive MIMO Systems

Authors:
Wang, J. ,  Gui, G. ,  Ohtsuki, T. ,  Abedisi, B. ,  Gacanin, H. ,  Sari, H.
Journal:
IEEE Transactions on Communications
Page(s):
1-1
Date:
Jun. 2021
DOI:
10.1109/TCOMM.2021.3086525
hsb:
RWTH-2021-06981
Language:
German
Abstract:
Accurate downlink channel state information (CSI) is required to be fed back to the base station (BS) in frequency division duplexing (FDD) massive multiple-input multiple-output (MIMO) systems in order to achieve maximum antenna diversity and multiplexing. However, downlink CSI feedback overhead scales with the number of transceiver antennas, a major hurdle for practical deployment of FDD massive MIMO systems. To solve this problem, we propose a compressive sampled CSI feedback method based on deep learning (SampleDL). In SampleDL, the massive MIMO channel matrix is sampled uniformly in time/frequency dimension before being fed into neural networks (NNs), which will reduce the computational resource/time at user equipment (UE) as well as enhance the CSI recovery accuracy at the BS. Both theoretical analysis and normalized mean square errors (NMSE) results confirm the advantages of the proposed method in terms of time complexity and recovery accuracy. Besides, a suitable CSI feedback period is explored by link level simulations, which aims to further reduce the overhead of CSI feedback without degrading the communication quality.
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