Time-multiplexed AoA Estimation and Ranging

2023 International Conference on Localization and GNSS (ICL-GNSS) Pub Date : 2023-06-06 DOI:10.1109/ICL-GNSS57829.2023.10148924

David Märzinger, B. Etzlinger, P. Peterseil, A. Springer

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Abstract

A joint angle-of-arrival (AoA) and ranging estimation scheme for ultra-wideband devices is presented and experimentally evaluated. Instead of using N parallel receive chains, antenna elements are sequentially switched to the receiver, i.e., time-multiplexed. To obtain time-multiplexed measurements, a special messaging scheme is proposed that extends the conventional double-sided two-way-ranging scheme by a number of response packets that is equivalent to the number of antenna elements. Thereby, each response packet—switched through a different receive antenna—is used to record the complex-valued channel impulse response, which contains the phase information later utilized for AoA estimation. Ranging is jointly obtained through recorded receive and transmit timestamps. As the time-multiplexing introduces significant delays between phase measurements, even small synchronization errors would cause significant AoA errors. Hence, the critical building block is the clock drift compensation. The experimental evaluation with a DW1000 UWB chip and four switched λ/2 spaced antennas shows an angular accuracy of 5.5° RMSE and the capability of accurate 2-D localization.

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时间复用AoA估计与测距

提出了一种用于超宽带设备的到达角和距离联合估计方案，并进行了实验验证。而不是使用N个并行接收链，天线单元依次切换到接收器，即时间复用。为了获得时间复用的测量结果，提出了一种特殊的消息传递方案，该方案扩展了传统的双面双向测距方案，增加了相当于天线单元数量的响应包数量。因此，每个响应包——通过不同的接收天线交换——被用来记录复值信道脉冲响应，其中包含随后用于AoA估计的相位信息。测距是通过记录的接收和发送时间戳共同获得的。由于时间复用在相位测量之间引入了明显的延迟，即使很小的同步误差也会导致显著的AoA误差。因此，关键的组成部分是时钟漂移补偿。采用DW1000超宽带芯片和4个λ/2间隔的开关天线进行实验评估，结果表明，该系统的角精度为5.5°RMSE，具有精确的二维定位能力。

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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2023 International Conference on Localization and GNSS (ICL-GNSS)

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