Transformer-based NLoS detection in UWB localization systems

2022 30th Telecommunications Forum (TELFOR) Pub Date : 2022-11-15 DOI:10.1109/TELFOR56187.2022.9983765

S. Tomovic, K. Bregar, T. Javornik, I. Radusinović

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引用次数: 2

Abstract

Ultra-Wide-Band (UWB) communication is recognized as one of the most promising technologies for indoor localization due to its ability to capture a high-resolution channel impulse response (CIR) at the receiver and penetrate walls and other obstacles. In UWB-based localization systems, a distance between the target object and anchor nodes is estimated by measuring the travel times of UWB signals. In indoor environments, numerous obstacles that block the Line-of-Sight (LoS) path between the target object and anchor nodes induce errors in the estimation of the time of signal flight. As a result, localization accuracy deteriorates. One of the techniques to address this issue is to discard range measurements of non-LoS (NLoS) anchors or to handle them differently when calculating the target position. In this paper, we apply Transformer deep learning model to detect NLoS channel conditions from the raw CIR data. The model has been trained and evaluated on a realistic dataset collected in an industrial environment. The results show performance improvement over the state-of-the-art convolutional neural network model.

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基于变压器的超宽带定位系统NLoS检测

超宽带(UWB)通信被认为是最有前途的室内定位技术之一，因为它能够在接收器处捕获高分辨率信道脉冲响应(CIR)，并穿透墙壁和其他障碍物。在基于超宽带的定位系统中，通过测量超宽带信号的传播时间来估计目标物体与锚节点之间的距离。在室内环境中，许多障碍物阻挡了目标物体和锚节点之间的视线(LoS)路径，导致信号飞行时间估计出现误差。因此，定位精度下降。解决这一问题的技术之一是在计算目标位置时放弃非目标值(NLoS)锚的距离测量或以不同的方式处理它们。在本文中，我们应用Transformer深度学习模型从原始CIR数据中检测NLoS信道条件。该模型已在工业环境中收集的真实数据集上进行了训练和评估。结果表明，与最先进的卷积神经网络模型相比，该模型的性能有所提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 30th Telecommunications Forum (TELFOR)

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