Attention-transfer-based path loss prediction in asymmetric massive MIMO IoT systems

IF 4.5 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Yan Zhang , Mingyu Chen , Meng Yuan , Wancheng Zhang , Luis A. Lago
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引用次数: 0

Abstract

The asymmetric massive multiple-input–multiple-output (MIMO) array improves system capacity and provides wide-area coverage for the Internet of Things (IoT). In this paper, we propose a novel attention-based model for path loss (PL) prediction in asymmetric massive MIMO IoT systems. To represent the propagation characteristics, the propagation image that considers the detailed environment, beamwidth pattern, and propagation-statistics feature is designed. Benefiting from the shuffle attention computation, the proposed model, termed a shuffle-attention-based convolutional neural network (SAN), can effectively extract the detailed features of the propagation scenario from the image. Besides, we design the beamwidth-scenario transfer learning (BWSTL) algorithm to assist the SAN model in predicting PL in the new asymmetric massive MIMO IoT systems, where the beamwidth configuration and propagation scenario are different. It is shown that the proposed model outperforms the empirical model and other state-of-the-art artificial intelligence-based models. Aided by the BWSTL algorithm, the SAN model can be transferred to new propagation conditions with limited samples, which is beneficial to the fast deployment in the new asymmetric massive MIMO IoT systems.

非对称大规模 MIMO 物联网系统中基于注意力转移的路径损耗预测
非对称大规模多输入多输出(MIMO)阵列可提高系统容量,并为物联网(IoT)提供广域覆盖。本文提出了一种基于注意力的新模型,用于非对称大规模多输入多输出物联网系统中的路径损耗(PL)预测。为了表示传播特性,我们设计了考虑到详细环境、波束宽度模式和传播统计特征的传播图像。得益于洗牌注意力计算,所提出的基于洗牌注意力的卷积神经网络(SAN)模型能有效地从图像中提取传播场景的细节特征。此外,我们还设计了波束宽度场景转移学习(BWSTL)算法,以辅助 SAN 模型预测波束宽度配置和传播场景不同的新型非对称大规模 MIMO 物联网系统中的 PL。结果表明,所提出的模型优于经验模型和其他最先进的基于人工智能的模型。在 BWSTL 算法的辅助下,SAN 模型可以在样本有限的情况下转移到新的传播条件,这有利于在新的非对称大规模 MIMO 物联网系统中快速部署。
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来源期刊
Computer Communications
Computer Communications 工程技术-电信学
CiteScore
14.10
自引率
5.00%
发文量
397
审稿时长
66 days
期刊介绍: Computer and Communications networks are key infrastructures of the information society with high socio-economic value as they contribute to the correct operations of many critical services (from healthcare to finance and transportation). Internet is the core of today''s computer-communication infrastructures. This has transformed the Internet, from a robust network for data transfer between computers, to a global, content-rich, communication and information system where contents are increasingly generated by the users, and distributed according to human social relations. Next-generation network technologies, architectures and protocols are therefore required to overcome the limitations of the legacy Internet and add new capabilities and services. The future Internet should be ubiquitous, secure, resilient, and closer to human communication paradigms. Computer Communications is a peer-reviewed international journal that publishes high-quality scientific articles (both theory and practice) and survey papers covering all aspects of future computer communication networks (on all layers, except the physical layer), with a special attention to the evolution of the Internet architecture, protocols, services, and applications.
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