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Main Authors: Sang, Yiliang, Ma, Ke, Ming, Yang, Lian, Jin, Wang, Zhaocheng
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.12569
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author Sang, Yiliang
Ma, Ke
Ming, Yang
Lian, Jin
Wang, Zhaocheng
author_facet Sang, Yiliang
Ma, Ke
Ming, Yang
Lian, Jin
Wang, Zhaocheng
contents The latest TypeII codebook selects partial strongest angular-delay ports for the feedback of downlink channel state information (CSI), whereas its performance is limited due to the deficiency of utilizing the correlations among the port coefficients. To tackle this issue, we propose a tailored autoencoder named TypeII-CsiNet to effectively integrate the TypeII codebook with deep learning, wherein three novel designs are developed for sufficiently boosting the sum rate performance. Firstly, a dedicated pre-processing module is designed to sort the selected ports for reserving the correlations of their corresponding coefficients. Secondly, a position-filling layer is developed in the decoder to fill the feedback coefficients into their ports in the recovered CSI matrix, so that the corresponding angular-delay-domain structure is adequately leveraged to enhance the reconstruction accuracy. Thirdly, a two-stage loss function is proposed to improve the sum rate performance while avoiding the trapping in local optimums during model training. Simulation results verify that our proposed TypeII-CsiNet outperforms the TypeII codebook and existing deep learning benchmarks.
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publishDate 2024
record_format arxiv
spellingShingle TypeII-CsiNet: CSI Feedback with TypeII Codebook
Sang, Yiliang
Ma, Ke
Ming, Yang
Lian, Jin
Wang, Zhaocheng
Signal Processing
The latest TypeII codebook selects partial strongest angular-delay ports for the feedback of downlink channel state information (CSI), whereas its performance is limited due to the deficiency of utilizing the correlations among the port coefficients. To tackle this issue, we propose a tailored autoencoder named TypeII-CsiNet to effectively integrate the TypeII codebook with deep learning, wherein three novel designs are developed for sufficiently boosting the sum rate performance. Firstly, a dedicated pre-processing module is designed to sort the selected ports for reserving the correlations of their corresponding coefficients. Secondly, a position-filling layer is developed in the decoder to fill the feedback coefficients into their ports in the recovered CSI matrix, so that the corresponding angular-delay-domain structure is adequately leveraged to enhance the reconstruction accuracy. Thirdly, a two-stage loss function is proposed to improve the sum rate performance while avoiding the trapping in local optimums during model training. Simulation results verify that our proposed TypeII-CsiNet outperforms the TypeII codebook and existing deep learning benchmarks.
title TypeII-CsiNet: CSI Feedback with TypeII Codebook
topic Signal Processing
url https://arxiv.org/abs/2405.12569