SeokhyunJeong / CsiNet-Pytorch

Pytorch reproduction of CsiNet
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communications

CsiNet-Pytorch

Pytorch implementation of CsiNet (C. Wen, 2018)
and online learning (Y. Cui, 2022)

[1] Chao-Kai Wen, Wan-Ting Shih, and Shi Jin, “Deep learning for massive MIMO CSI feedback,” IEEE Wireless Communications Letters, 2018.
[2] Yiming Cui, Jiajia Guo, Chao-Kai Wen, Shi Jin, and Shuangfeng Han, "Unsupervised Online Learning in Deep Learning-Based Massive MIMO CSI Feedback", Unsupervised Online Learning in Deep Learning-Based Massive MIMO CSI Feedback, 2022.

some of functions are from https://github.com/WilliamYangXu/CSITransformer.

data:
You can download QuaDRiGa in https://quadriga-channel-model.de/ and generate channel.
Please put the channel data csv file in ./filepath folder.
Sample datasets are available in https://drive.google.com/drive/folders/1cWkGpdYPxrHSN55phGgyJ4YGHFZgSCS9?usp=sharing

run:
open 'main.py'
adjust parameters (dimension of codeword, the number of epochs, ...)
and run 'main.py'.

explanation of each python file

update 20230116
Here is the online learning with different scenarios added.
The model architecture is same as CsiNet(2018), not the online learning paper(2022)
What is online learning?
In the real time communication scenarios, each BS experience different environment (i.e., different probability density of channel).
Therefore, it is helpful to do fine tuning with each BS's data.
Since UE cannot transmit the whole channel matrix to BS,
BS doesn't have knowledge about data label.
Moreover, BS can't deliver the gradient flow to UE, so that the encoder in UE cannot be updated.
Therefore, the online learning only learns decoder part, without knowledge of channel label.