热能耳环

IF 3.6 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Qiuyue Shirley Xue, Yujia Liu, Joseph Breda, Mastafa Springston, Vikram Iyer, Shwetak Patel
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引用次数: 0

摘要

体温是一种重要的生命体征,可显示发热,而且已知与进食、运动和压力等活动有关。然而,持续体温监测是一项重大挑战。我们推出的热敏耳环是首创的智能耳环,可为连续体温监测提供可靠的可穿戴解决方案。与手表和其他佩戴在四肢上的可穿戴设备不同,耳环与身体的结合非常紧密。我们开发的硬件原型采用真实耳环的外形尺寸,最大宽度为 11.3 毫米,长度为 31 毫米,重量为 335 毫克,功耗仅为 14.4 uW,在实际测试中电池寿命可达 28 天。我们证明了这种外形尺寸足够小巧轻便,可以集成到具有时尚设计的实际首饰中。此外,我们还开发了一种双传感器设计,以区分人体温度变化和环境变化。我们探索了这种新型传感平台的使用方法,发现其测量的耳垂温度在休息期间稳定在 ±0.32 °C 以内。利用这些令人鼓舞的结果,我们通过收集 5 名发热患者和 20 名健康参与者的数据,研究了其检测发热的能力。此外,我们还首次对耳垂温度与各种日常活动之间的关系进行了调查,发现耳垂温度的变化与进食和运动有关。我们还发现了一个令人惊讶的结果,即公众演讲和考试等急性压力会导致耳垂温度发生可测量的变化。我们进行了多天的野外实验,证实了这些日常活动在自然的日常场景中引起的温度变化。这一初步探索旨在为未来的自动活动检测和基于耳环的可穿戴设备奠定基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal Earring
Body temperature is an important vital sign which can indicate fever and is known to be correlated with activities such as eating, exercise and stress. However, continuous temperature monitoring poses a significant challenge. We present Thermal Earring, a first-of-its-kind smart earring that enables a reliable wearable solution for continuous temperature monitoring. The Thermal Earring takes advantage of the unique position of earrings in proximity to the head, a region with tight coupling to the body unlike watches and other wearables which are more loosely worn on extremities. We develop a hardware prototype in the form factor of real earrings measuring a maximum width of 11.3 mm and a length of 31 mm, weighing 335 mg, and consuming only 14.4 uW which enables a battery life of 28 days in real-world tests. We demonstrate this form factor is small and light enough to integrate into real jewelry with fashionable designs. Additionally, we develop a dual sensor design to differentiate human body temperature change from environmental changes. We explore the use of this novel sensing platform and find its measured earlobe temperatures are stable within ±0.32 °C during periods of rest. Using these promising results, we investigate its capability of detecting fever by gathering data from 5 febrile patients and 20 healthy participants. Further, we perform the first-ever investigation of the relationship between earlobe temperature and a variety of daily activities, demonstrating earlobe temperature changes related to eating and exercise. We also find the surprising result that acute stressors such as public speaking and exams cause measurable changes in earlobe temperature. We perform multi-day in-the-wild experiments and confirm the temperature changes caused by these daily activities in natural daily scenarios. This initial exploration seeks to provide a foundation for future automatic activity detection and earring-based wearables.
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来源期刊
Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies
Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies Computer Science-Computer Networks and Communications
CiteScore
9.10
自引率
0.00%
发文量
154
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