Applying Deep Learning for Phase-Array Antenna Design

Master of Engineering (Electrical Engineering), 2021

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Bibliographic Details
Main Author:	Zhang, Peng Jr
Other Authors:	Mitchai Chongcheawchamnan
Format:	Theses and Dissertations
Language:	English
Published:	Prince of Songkla University 2023
Subjects:	Deep learning Hybrid beamforming massive MIMO Unsupervised Deep Learning
Online Access:	http://kb.psu.ac.th/psukb/handle/2016/19144
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Institution:	Prince of Songkhla University
Language:	English

id	th-psu.2016-19144
record_format	dspace
spelling	th-psu.2016-191442023-12-06T04:41:41Z Applying Deep Learning for Phase-Array Antenna Design Zhang, Peng Jr Mitchai Chongcheawchamnan Faculty of Engineering Electrical Engineering คณะวิศวกรรมศาสตร์ ภาควิชาวิศวกรรมไฟฟ้า Deep learning Hybrid beamforming massive MIMO Unsupervised Deep Learning Master of Engineering (Electrical Engineering), 2021 Hybrid beamforming (HBF) can provide rapid data transmission rates while reducing the complexity and cost of massive multiple-input multiple-output (MIMO) systems. However, channel state information (CSI) is imperfect in realistic downlink channels, introducing challenges to hybrid beamforming (HBF) design. For HBF designs, we had a hard time finding the proper labels. If we use the optimized output based on the traditional algorithm as the label, the neural network can only be trained to approximate the traditional algorithm, but not better than the traditional algorithm. This thesis proposes a hybrid beamforming neural network based on unsupervised deep learning (USDNN) to prevent the labeling overhead of supervised learning and improve the achievable sum rate based on imperfect CSI. Compared with the traditional HBF method, the unsupervised learning-based method can avoid the labeling overhead as well as obtain better performance than the traditional algorithm. The network consists of 5 dense layers, 4 batch normalization (BN) layers and 5 activation functions. After training, the optimized beamformer can be obtained, and the optimized beamforming vector can be directly output. The simulation results show that our proposed method is 74% better than manifold optimization (MO) and 120% better than orthogonal match pursuit (OMP) systems. Furthermore, our proposed USDNN can achieve near-optimal performance. 2023-12-06T04:41:41Z 2023-12-06T04:41:41Z 2022 Thesis http://kb.psu.ac.th/psukb/handle/2016/19144 en Attribution-NonCommercial-NoDerivs 3.0 Thailand http://creativecommons.org/licenses/by-nc-nd/3.0/th/ application/pdf Prince of Songkla University
institution	Prince of Songkhla University
building	Khunying Long Athakravi Sunthorn Learning Resources Center
continent	Asia
country	Thailand Thailand
content_provider	Khunying Long Athakravi Sunthorn Learning Resources Center
collection	PSU Knowledge Bank
language	English
topic	Deep learning Hybrid beamforming massive MIMO Unsupervised Deep Learning
spellingShingle	Deep learning Hybrid beamforming massive MIMO Unsupervised Deep Learning Zhang, Peng Jr Applying Deep Learning for Phase-Array Antenna Design
description	Master of Engineering (Electrical Engineering), 2021
author2	Mitchai Chongcheawchamnan
author_facet	Mitchai Chongcheawchamnan Zhang, Peng Jr
format	Theses and Dissertations
author	Zhang, Peng Jr
author_sort	Zhang, Peng Jr
title	Applying Deep Learning for Phase-Array Antenna Design
title_short	Applying Deep Learning for Phase-Array Antenna Design
title_full	Applying Deep Learning for Phase-Array Antenna Design
title_fullStr	Applying Deep Learning for Phase-Array Antenna Design
title_full_unstemmed	Applying Deep Learning for Phase-Array Antenna Design
title_sort	applying deep learning for phase-array antenna design
publisher	Prince of Songkla University
publishDate	2023
url	http://kb.psu.ac.th/psukb/handle/2016/19144
_version_	1784859634118426624

Applying Deep Learning for Phase-Array Antenna Design

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