Wrist-Worn Capacitive Sensor for Activity and Physical Collaboration Recognition

2019 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops) Pub Date : 2019-03-01 DOI:10.1109/PERCOMW.2019.8730581

Sizhen Bian, V. F. Rey, Junaid Younas, P. Lukowicz

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引用次数: 16

Abstract

Given the wide and increasing popularity of smart-watches, the wrist is a compelling location for placing sensors. On the other hand, only specific information such as hand/arm motions and selected physiological signals are readily available at the wrist. In this paper, we explore a novel wrist-worn sensing approach that allows information not typically associated with the wrist or the arm to be acquired by exploring the ubiquitous near-field electric phenomena. We first introduce the design of an ultra-low power near-field electric field sensing prototype, which is able to sense $uV$ level potential variation caused by disturbance or movement of the human body in an environment. Then we demonstrate how our prototype can detect motions of various body parts beyond the wrist, such as touch and proximity between users and objects. Finally, a use case related to a collaborative work by two people is recorded by deploying our prototypes both at surrounding objects and on wrists, presenting the feasibility of collaborative work monitoring by sensing the variation of the near field electric field.

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用于活动和物理协作识别的腕带电容式传感器

鉴于智能手表的广泛普及和日益普及，手腕是放置传感器的一个引人注目的位置。另一方面，只有特定的信息，如手/手臂的运动和选定的生理信号，可以在手腕上随时获得。在本文中，我们探索了一种新颖的腕戴式传感方法，该方法允许通过探索无处不在的近场电现象来获取通常与手腕或手臂无关的信息。本文首先介绍了一种超低功耗近场电场传感样机的设计，该样机能够感知环境中人体受到干扰或运动引起的uV级电位变化。然后，我们演示了我们的原型如何检测手腕以外的各种身体部位的运动，例如触摸和用户与物体之间的接近。最后，通过在周围物体和手腕上部署我们的原型，记录了一个与两个人协作工作相关的用例，通过感知近场电场的变化来展示协作工作监控的可行性。

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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2019 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops)

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