Contactless temperature and distance measuring device: A low-cost, novel infrared -based

Q3 Engineering
Abhijeet Kumar, Arpit Kumar
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引用次数: 0

Abstract

This work eases the feasibility of infrared thermometer application and reliability to introduce a novel design with upgraded applications & functions. The custom-designed compact device "Badge" structured comprises the operative methods through the electronic packages of an optimal level. The physical and social distance measured by the ToF (Time of Flight) infrared laser sensor within 1 m from the subject and the measuring equipment (MLX90632 SMD QFN and VL530LX ToF). When the distance is not maintained, or the physical distance condition is not met, the flashing LED, or vibration should trigger an indication (warning for physical distancing and alteration for pyrexia warning, respectively). Statistical analysis and simulation-based studies criticized the accuracy of ±0.5°F and relational model of the independent and dependent variable for this device with significant R2 = 0.99 and P < = 1; values with the lowest accuracy error of ±0.2°F and least residual sum of squares 0.01462 values. The portable, lightweight, and dynamic body temperature monitoring altered the application from static to continuous, complete structural design. This alternative provides the best technique to combine worn (personnel) medical devices with primary healthcare instruments to help body temperature measurements that are not contactable, fast, and accurate. It builds a way of processing through the protocol Covid-19.
非接触式温度和距离测量装置:一种低成本、新颖的基于红外的测量装置
这项工作简化了红外测温仪应用的可行性和可靠性,引入了一种具有升级应用和功能的新颖设计。定制设计的紧凑型装置“Badge”结构包括通过最佳水平的电子封装的操作方法。ToF (Time of Flight)红外激光传感器测量的距离被测者和测量设备(MLX90632 SMD QFN和VL530LX ToF)在1 m内的物理和社交距离。当未保持距离或未达到物理距离条件时,LED闪烁或振动应触发指示(分别为物理距离警告和发热警告变化)。基于统计分析和模拟的研究批评了该设备±0.5°F的准确性以及自变量和因变量的相关模型,R2 = 0.99, P < = 1;精度误差最小为±0.2°F,残差平方和最小为0.01462值。便携、轻便、动态的体温监测改变了从静态应用到连续、完整的结构设计。这种替代方案提供了将穿戴式(人员)医疗设备与初级保健仪器相结合的最佳技术,以帮助进行非接触式、快速和准确的体温测量。它通过Covid-19协议建立了一种处理方式。
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
AIMS Electronics and Electrical Engineering
AIMS Electronics and Electrical Engineering Engineering-Control and Systems Engineering
CiteScore
2.40
自引率
0.00%
发文量
19
审稿时长
8 weeks
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