Functional System for Temperature and Relative Air Humidity Software Monitoring in Interlayer Clothing Space

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES

Science and innovation Pub Date : 2024-04-05 DOI:10.15407/scine20.02.060

D. Novak, A. Moshenskyi, S. Bereznenko, L. Serhiienko, O. Guida

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引用次数: 1

Abstract

Introduction. The study of the parameters of the clothing space is extremely important in the development of seasonal clothing for the military, police, athletes, etc.Problem Statement. The use of “smart” textiles capable of responding to changes in the environment, adapting to it by integrating functional capabilities into the textile structure, deserves attention. Person’s feeling and emotional response are accompanied by electrical, thermal, chemical or other changes in the human body, which can be recorded by electronic devices and used to monitor the comfort of clothing.Purpose. The purpose is to develop a functional system for monitoring the interlayer space of clothing given the temperature and relative humidity and for creating a prototype remote control system for clothing.Materials and Methods. Sensors (a microcontroller with a battery, radio modules, temperature and relative humidity sensors) placed in the knitted structure of the T-shirt, on certain parts of the human body have been used. Atmega328 microcontroller equipped with 18650 batteries has been employed to detect the temperature and the relative humidity in the interlayer space of the clothing with the help of DS18B20 temperature sensors and DHT22 humidity sensors. The HC-12 radio module has been used for transmitting the data from the microcontroller to the target device. The data have been processed by a special program with the use of the Serial, NumPy, Matplotlib, and Drawnow libraries.Results. The system for remotely monitoring changes in the internal microclimate within the airspace between layers of diff erent clothing materials has been developed. The relationship between the average temperature and the relative humidity in the interlayer clothing space has been determined and are equal to ~26 0C and 29.8%, respectively, after exposure to an outdoor temperature of –10 0C.Conclusions. The obtained results can be used to improve existing and to develop new items of clothing with increased comfort.

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层间服装空间温度和空气相对湿度软件监控功能系统

导言。对服装空间参数的研究对于为军队、警察和运动员等开发季节性服装极为重要。能够对环境变化做出反应，并通过将功能集成到纺织品结构中来适应环境的 "智能 "纺织品的使用值得关注。人的感觉和情绪反应伴随着人体的电、热、化学或其他变化，这些变化可被电子设备记录下来，用于监测服装的舒适度。目的是根据温度和相对湿度开发一个监测服装层间空间的功能系统，并创建一个服装遥控系统原型。传感器（带电池的微控制器、无线电模块、温度和相对湿度传感器）被放置在 T 恤衫的针织结构中和人体的某些部位。在 DS18B20 温度传感器和 DHT22 湿度传感器的帮助下，使用了配备 18650 电池的 Atmega328 微控制器来检测衣服夹层空间的温度和相对湿度。HC-12 无线电模块用于将数据从微控制器传输到目标设备。数据由一个使用 Serial、NumPy、Matplotlib 和 Drawnow 库的特殊程序处理。我们开发了一套系统，用于远程监测不同服装材料层间空气空间内部微气候的变化。在室外温度为零下 10 摄氏度的情况下，层间衣物空间的平均温度和相对湿度之间的关系已经确定，分别为 26 摄氏度和 29.8%。所得结果可用于改进现有服装和开发新的服装，提高服装的舒适度。

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

Science and innovation MULTIDISCIPLINARY SCIENCES-

CiteScore

1.10

自引率

0.00%

发文量