CSI-GPT: integrating generative pre-trained transformer with federated-tuning to acquire downlink massive MIMO channels
CSI-GPT: integrating generative pre-trained transformer with federated-tuning to acquire downlink massive MIMO channels
In massive multiple-input multiple-output (MIMO) systems, how to reliably acquire downlink channel state information (CSI) with low overhead is challenging. In this work, by integrating the generative pre-trained Transformer (GPT) with federated-tuning, we propose a CSI-GPT approach to realize efficient downlink CSI acquisition. Specifically, we first propose a Swin Transformer-based channel acquisition network (SWTCAN) to acquire downlink CSI, where pilot signals, downlink channel estimation, and uplink CSI feedback are jointly designed. Furthermore, to solve the problem of insufficient training data, we propose a variational auto-encoder-based channel sample generator (VAE-CSG), which can generate sufficient CSI samples based on a limited number of high-quality CSI data obtained from the current cell. The CSI dataset generated from VAECSG will be used for pre-training SWTCAN. To fine-tune the pre-trained SWTCAN for improved performance, we propose an online federated-tuning method, where only a small amount of SWTCAN parameters are unfrozen and updated using over-the-air computation, avoiding the high communication overhead caused by aggregating the complete CSI samples from user equipment (UEs) to the BS for centralized fine-tuning. Simulation results verify the advantages of the proposed SWTCAN and the communication efficiency of the proposed federated-tuning method. Our code is publicly available at https://github.com/BIT-ZY/CSI-GPT
Zeng, Ye
52d65658-439b-4658-94ad-08345000c996
Qiao, Li
f45484d1-2a7f-4974-a2bf-5f548650abc1
Gao, Zhen
e0ab17e4-5297-4334-8b64-87924feb7876
Qin, Tong
841f6db7-2c01-49ea-8aad-75b246b0eb66
Wu, Zhonghuai
c617265d-e2eb-4b6a-92a4-292241e8ee97
Khalaf, Emad
62bd08ad-df8b-4357-ac82-8b87b8c05d43
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Guizani, Mohsen
c14930d0-c377-4a6a-b556-6cb455eff9f0
Zeng, Ye
52d65658-439b-4658-94ad-08345000c996
Qiao, Li
f45484d1-2a7f-4974-a2bf-5f548650abc1
Gao, Zhen
e0ab17e4-5297-4334-8b64-87924feb7876
Qin, Tong
841f6db7-2c01-49ea-8aad-75b246b0eb66
Wu, Zhonghuai
c617265d-e2eb-4b6a-92a4-292241e8ee97
Khalaf, Emad
62bd08ad-df8b-4357-ac82-8b87b8c05d43
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Guizani, Mohsen
c14930d0-c377-4a6a-b556-6cb455eff9f0
Zeng, Ye, Qiao, Li, Gao, Zhen, Qin, Tong, Wu, Zhonghuai, Khalaf, Emad, Chen, Sheng and Guizani, Mohsen
(2024)
CSI-GPT: integrating generative pre-trained transformer with federated-tuning to acquire downlink massive MIMO channels.
IEEE Transactions on Vehicular Technology.
(In Press)
Abstract
In massive multiple-input multiple-output (MIMO) systems, how to reliably acquire downlink channel state information (CSI) with low overhead is challenging. In this work, by integrating the generative pre-trained Transformer (GPT) with federated-tuning, we propose a CSI-GPT approach to realize efficient downlink CSI acquisition. Specifically, we first propose a Swin Transformer-based channel acquisition network (SWTCAN) to acquire downlink CSI, where pilot signals, downlink channel estimation, and uplink CSI feedback are jointly designed. Furthermore, to solve the problem of insufficient training data, we propose a variational auto-encoder-based channel sample generator (VAE-CSG), which can generate sufficient CSI samples based on a limited number of high-quality CSI data obtained from the current cell. The CSI dataset generated from VAECSG will be used for pre-training SWTCAN. To fine-tune the pre-trained SWTCAN for improved performance, we propose an online federated-tuning method, where only a small amount of SWTCAN parameters are unfrozen and updated using over-the-air computation, avoiding the high communication overhead caused by aggregating the complete CSI samples from user equipment (UEs) to the BS for centralized fine-tuning. Simulation results verify the advantages of the proposed SWTCAN and the communication efficiency of the proposed federated-tuning method. Our code is publicly available at https://github.com/BIT-ZY/CSI-GPT
Text
manuscript
- Accepted Manuscript
Restricted to Repository staff only until 25 December 2024.
Request a copy
More information
Accepted/In Press date: 21 October 2024
Identifiers
Local EPrints ID: 495834
URI: http://eprints.soton.ac.uk/id/eprint/495834
ISSN: 0018-9545
PURE UUID: e0fe5bd2-12cc-409b-952a-4965a220955b
Catalogue record
Date deposited: 25 Nov 2024 17:43
Last modified: 25 Nov 2024 17:43
Export record
Contributors
Author:
Ye Zeng
Author:
Li Qiao
Author:
Zhen Gao
Author:
Tong Qin
Author:
Zhonghuai Wu
Author:
Emad Khalaf
Author:
Sheng Chen
Author:
Mohsen Guizani
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics