Novel Handheld Device to Measure the Nasal Expiratory Flow Rate of the Two Nasal Cavities Individually and Simultaneously

Q3 Engineering

Instrumentation Mesure Metrologie Pub Date : 2021-02-28 DOI:10.18280/I2M.200102

Thimira S. Thilakarathna, Mahesh Edirisinghe

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Abstract

This paper reveals a novel handheld device to measure the peak nasal expiratory flow rate of the two nasal cavities individually and simultaneously. Significantly, when using this device, the patient needs to inhale from the mouth and exhale from the nose, as a usual breath, and importantly there is no need to take extra effort to exhale. The key detection mechanism used is the anemometer technique and the measurement is done by using an optical wheel encoder and an ATmega328p microcontroller. The device is capable of measuring the exhaled airflow rate with an accuracy of ± 1 LPM. It also allows measuring the number of breaths per minute together with the respective temperature and the relative humidity of the exhaled airflow of the two nasal cavities separately. Two DHT22 sensor modules are used to measure relative humidity and temperature with an accuracy of ±1 %RH and ±0.5℃ respectively. This can be used by a Rhinologist as an initial diagnosing tool for several diseases, as the device allows them to get an idea about the patient’s exhaling behavior of the nasal airflow instantly. The device would be beneficial in the sports sector as a physical fitness indicator by means of the breathing style.

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一种新型的手持式装置，可分别和同时测量两个鼻腔的鼻呼气流速

本文设计了一种新型的手持式仪器，可同时测量两个鼻腔的呼气流速峰值。值得注意的是，在使用该设备时，患者需要像往常一样用嘴吸气，用鼻子呼气，重要的是不需要额外的努力来呼气。使用的关键检测机制是风速计技术，测量是通过使用光轮编码器和ATmega328p微控制器完成的。该设备能够测量呼出气流速率，精度为±1lpm。它还可以测量每分钟的呼吸次数以及分别测量两个鼻腔呼出气流的温度和相对湿度。采用两个DHT22传感器模块测量相对湿度和温度，测量精度分别为±1% RH和±0.5℃。这可以被鼻科医生用作几种疾病的初始诊断工具，因为该设备允许他们立即了解患者鼻腔气流的呼出行为。该装置通过呼吸方式作为身体健康指标，在体育领域将是有益的。

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

Instrumentation Mesure Metrologie Engineering-Engineering (miscellaneous)

CiteScore

1.70

自引率

0.00%

发文量