应用于毫米波车车通信的多模态感知辅助波束预测

doi:10.16451/j.cnki.issn1003-6059.202311003

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Abstract To ensure the transmission reliability of vehicular communication network, precisely aligned beamforming of millimeter-wave communication using massive multi-input multi-output(mMIMO) technology is urgently required. In highly dynamic vehicular communication scenarios, traditional beam alignment schemes incur significant resource overhead and struggle to establish reliable links within the coherence time. To address this critical challenge, a scheme of multi-modality sensing aided beam prediction for mmWave V2V communications is proposed. Two non-RF sensing modalities, vision and ranging(LiDAR) point cloud, are integrated, and deep neural networks are employed for feature extraction and integration of multi-modal information. Accurate matching and deep fusion of image space semantic information and physical space location information are achieved through perspective projection. By collaborative sensing coordinate calibration and vehicle position prediction, the features of physical environment are accurately mapped to the angular-domain channel, enabling real-time and precise beam prediction. The experimental results on the mixed multi-modal sensing-communication dataset(M³SC)show that the proposed scheme achieves high angle tracking accuracy and achievable communication rate.

Key words： Vehicular Communication Network V2V Communications Integrated Sensing and Communications Multi-modal Sensing Beam Prediction Deep Learning

Received: 11 October 2022

ZTFLH:

TP391.4

Fund:National Key Research and Development Program of China(No.2020AAA0108101), National Natural Science Foundation of China(No.62125101,62341101,62001018,62301011,U23A20339), New Cornerstone Science Foundation through the XPLORER PRIZE, Municipal Science and Technology Project of Guangzhou(No.2023A03J0011), Guangdong Provincial Department of Education Major Research Project(No.2023ZDZX1037)

Corresponding Authors: GAO Shijian, Ph.D.,senior engineer. His research interests include wireless communications and statistical signal processing.

About author:: WEN Weibo, Ph.D. candidate. His research interests include multi-modal sensing-assisted transceiver design in communication systems. ZHANG Haotian, Ph.D. candidate. His research interests include multi-modal sen-sing-assisted transceiver design in communication systems. CHENG Xiang, Ph.D., professor. His research interests include data-driven intelligent network and networked intelligence. YANG Liuqing, Ph.D., professor. Her research interests include wireless communication networks, multi-agent systems and integrated communication and sensing.

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Cite this article:

WEN Weibo,ZHANG Haotian,GAO Shijian等. Multi-modality Sensing Aided Beam Prediction for mmWave V2V Communications[J]. Pattern Recognition and Artificial Intelligence, 2023, 36(11): 997-1008.

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http://manu46.magtech.com.cn/Jweb_prai/EN/10.16451/j.cnki.issn1003-6059.202311003 OR http://manu46.magtech.com.cn/Jweb_prai/EN/Y2023/V36/I11/997

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