Noncontact Electrophysiology Monitoring Systems for Assessment of Canine-Human Interactions

2021 IEEE Sensors Pub Date : 2021-10-31 DOI:10.1109/SENSORS47087.2021.9639748

P. Ahmmed, Timothy R. N. Holder, Marc Foster, I. Castro, Aakash Patel, T. Torfs, A. Bozkurt

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引用次数: 1

Abstract

Canine-assisted interactions have enormous potential in coping with psychological disorders and stress. It has been actively used for improving the mood of hospitalized patients, especially those suffering from chronic diseases like cancer. However, little progress has been made to enable the assessment of these interactions between the patient and the animal in a quantitative and undisruptive way. In this paper, we present a capacitively coupled biopotential recording system custom-designed for animal-human dyads. This system uses noncontact electrodes to monitor the heart rate and its variability to evaluate the physiological basis of the animal-assisted therapies. Preliminary in vivo evaluation of the system in humans and canines demonstrates promising measurement accuracy. The mean absolute error of the estimated heart rate was less than 0.25 BPM in reference to a commercial electrocardiography device. The future integration of this system into ergonomic form factors could enable a better understanding of animal-human interactions during canine-assisted therapy sessions by realizing an unobtrusive and continuous monitoring platform.

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评估犬与人相互作用的非接触电生理监测系统

狗的辅助互动在应对心理障碍和压力方面具有巨大的潜力。它被积极用于改善住院病人的情绪，特别是那些患有癌症等慢性疾病的病人。然而，在以定量和不受干扰的方式评估患者和动物之间的这些相互作用方面，进展甚微。在本文中，我们提出了一个电容耦合的生物电位记录系统，为动物-人类二体定制。该系统使用非接触式电极来监测心率及其变异性，以评估动物辅助疗法的生理基础。该系统在人类和犬科动物身上的初步体内评估显示出有希望的测量精度。与商用心电图仪相比，估计心率的平均绝对误差小于0.25 BPM。未来将该系统集成到符合人体工程学的外形因素中，通过实现一个不引人注目的连续监测平台，可以更好地了解犬辅助治疗期间动物与人类的相互作用。

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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2021 IEEE Sensors

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