Wearable Deformation Sensor with Ambient Interference Rejection Using Differential Backscattered RFID Signals

2021 IEEE International Conference on RFID (RFID) Pub Date : 2021-04-27 DOI:10.1109/RFID52461.2021.9444326

Siqi Dai, Tingzhe Wang, Yulong Liu, Terry Tao Ye

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Abstract

RFID technology not only enables wireless identification, it also provides the platform for battery-less antenna sensing capabilities, i.e., the sensing information is modulated by the antenna impedance, and it can later be extracted from the backscattered signals by the readers. However, antenna sensing is prone to interference and ambient environment impacts, such as distance variation and noise in the transmission path. These factors can cause amplitude and phase changes of the received signals, and deteriorate the quality of the sensing information. In this paper, we propose a deformation sensor that consists of two adjacent-placed RFID antennas. The impedance of the two antennas will be modulated differently under the bending condition, and the deformation information can be extracted from the differential backscattered signals of the two antennas. To be deployed as a wearable body gesture sensor, the two antennas are embroidered on apparel using conductive yarns. Experiments show that differential sensing signals can effectively eliminate the impact from ambient interference, while tracking the body gesture even under varying reading distances.

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基于差分后向散射RFID信号的可穿戴变形传感器

RFID技术不仅实现了无线识别，还为无电池的天线感知能力提供了平台，即感知信息由天线阻抗调制，然后由阅读器从后向散射信号中提取。然而，天线传感容易受到干扰和周围环境的影响，如距离变化和传输路径中的噪声。这些因素会引起接收信号的幅值和相位变化，从而降低传感信息的质量。在本文中，我们提出了一种由两个相邻放置的RFID天线组成的变形传感器。在弯曲条件下，两根天线的阻抗会被不同的调制，并且可以从两根天线的差分后向散射信号中提取变形信息。作为可穿戴的身体手势传感器，这两个天线用导电纱线绣在衣服上。实验表明，差分传感信号可以有效地消除环境干扰的影响，即使在不同的读取距离下也能跟踪人体手势。

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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来源期刊

2021 IEEE International Conference on RFID (RFID)

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