Mengyuan Li, Yu Han, Xiao Li, Chao-Kai Wen, Shi Jin
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引用次数: 1
摘要
空间互易性通过获取上行链路中的频率无关参数,实现了频分双工(FDD)大规模多输入多输出(MIMO)系统的下行信道重构。然而,估计这些参数的算法通常是复杂和耗时的。本文将信道视为图像,利用基于深度学习的先进目标检测网络YOLO (you only look once)定位信道图像中的亮点,从而快速估计出与频率无关的参数。与传统算法迭代提取路径不同,YOLO可以同时检测所有路径。实验结果表明,YOLO可以大大减少获取频率无关参数的运行时间,并以满意的精度重建FDD大规模MIMO下行信道。
Deep Learning Based Fast Downlink Channel Reconstruction For FDD Massive MIMO Systems
The spatial reciprocity enables the downlink channel reconstruction in frequency division duplex (FDD) massive multi-input multi-output (MIMO) systems by obtaining the frequency-independent parameters in the uplink. However, the algorithms to estimate these parameters are typically complex and time-consuming. In this paper, we regard the channel as an image and utilize you only look once (YOLO), an advanced deep learning-based object detection network, to locate the bright spots in the channel image, then the frequency-independent parameters can be estimated rapidly. Superior to the traditional algorithm that iteratively extracts the paths, YOLO can detect all the path simultaneously. Experimental results show that YOLO can greatly deplete the running time to obtain the frequency-independent parameters and reconstruct the FDD massive MIMO downlink channel with satisfactory accuracy.
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