Humanoid Robot Application as COVID-19 Symptoms Checker Using Computer Vision and Multiple Sensors

Elkha Jurnal Teknik Elektro Pub Date : 2021-10-22 DOI:10.26418/elkha.v13i2.47213

Muhammad Baihaqi, V. Vincent, J. W. Simatupang

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引用次数: 2

Abstract

Novel Corona Virus (nCoV) infects human’s respiratory system. It spreads easily when an infected person makes a close contact with other people. To prevent its massive spread, it is necessary to ensure anyone coming to a certain place is not being infected. The symptoms include high body temperature (≥37.5°C) and low oxygen saturation level (≤95%). This day, most places only check the human body temperature. Thus, the authors are interested to make an attempt to design a system that is able to measure both human body temperature and oxygen saturation level. This work also applies the 7-DoF Upper-Body of Humanoid Robot to prevent virus spread from and to the employee. The system will detect the coming of visitors by using face detection. It requires 7.24 seconds to detect the visitor without a mask, and 1.26 second when the visitor wears a mask. The body temperature measurement was done using GY-906 temperature sensor with an error of 0.51%. For the oxygen saturation level measurement, MAX30100 pulse oximeter module was applied and showed an error of 0.78%. In addition, the upper-body of humanoid robot will perform some gestures to instruct the visitors in every process of the system. The implemented 7-DoF upper-body of humanoid robot has 93.33% gesture comprehension rate. In conclusion, the overall system has been tested and showed success rate up to 75%.

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基于计算机视觉和多传感器的人形机器人在COVID-19症状检测中的应用

新型冠状病毒(nCoV)感染人的呼吸系统。当感染者与其他人密切接触时，它很容易传播。为了防止其大规模传播，有必要确保任何来到某个地方的人都不会被感染。症状包括高体温(≥37.5℃)和低血氧饱和度(≤95%)。这一天，大多数地方只检查人的体温。因此，作者有兴趣尝试设计一种能够同时测量人体温度和氧饱和度的系统。这项工作也适用于人形机器人的7自由度上肢，以防止病毒从员工身上传播到员工身上。该系统将通过人脸检测来检测访客的到来。不戴口罩检测需要7.24秒，戴口罩检测需要1.26秒。体温测量采用GY-906型温度传感器，误差为0.51%。氧饱和度测量采用MAX30100脉搏血氧仪模块，测量误差为0.78%。此外，在系统的每个过程中，人形机器人的上半身会做出一些手势来指导参观者。所实现的人形机器人上体7自由度手势理解率为93.33%。综上所述，整个系统已经过测试，成功率高达75%。

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

Elkha Jurnal Teknik Elektro

自引率

0.00%

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审稿时长

10 weeks