物联网传感平台,用于监测现场温度、空气相对湿度和二氧化碳

C. Rodrigues, Katiane Pereira da Silva, William de Brito Pantoja, A. Beirão, J. F. Almeida, Pedro Campos, E. Morais, O. Chase
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引用次数: 0

摘要

本文介绍了一种能够测量温度、相对湿度和二氧化碳的传感平台的开发。该系统基于IoT(物联网)平台的概念,使用ESP8266微控制器连接DHT21和CSS811传感器,动力系统采用锂电池。使用Blynk技术的App(应用程序)显示收集到的信息并对数据进行地理参考,然后将其存储在数字云中。进行了两次实验,以确定贝尔萨姆境内森林和城市地区的环境质量,显示了发达系统的质量以及树木对二氧化碳和热舒适相关的空气质量的影响。此外,必须重新制订城市公共交通系统,使其能够以有效和较少污染的方式使用,因为交通是造成温室效应和加剧与公共健康有关的因素的污染物的主要排放源。所开发设备的描述允许其可重复性,并具有以下主要区别:优化的电力系统,与可再生能源集成的可能性,低成本平台;连接多个传感器;易于编程和操作;互联网接入,最后但并非最不重要的是,低成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
IoT sensory platform for monitoring temperature, relative humidity of the air and CO2 in situ
This article addresses the development of a sensory platform capable of measuring temperature, relative humidity, and carbon dioxide. The system is based on concepts of an IoT (Internet of Things) platform using the ESP8266 microcontroller connected to DHT21 and CSS811 sensors, the power system has lithium batteries. An App (Application) in Blynk technology was used to display the collected information and georeferenced the data, which in turn are stored in a digital cloud. Two experiments were carried out to determine the environmental quality in a forest and urban area within Belém, showing the quality of the developed system and the influence that trees have on air quality in relation to carbon dioxide and thermal comfort. Furthermore, a reformulation of the urban public transportation system must be employed, enabling it to be used in an efficient and less polluting way, since transportation is the leading emitter of pollutants that contribute to the greenhouse effect and aggravates factors related to public health. The description of the developed device allows its reproducibility and has as main differentials: optimized power system, possibility of integration with renewable energies, low cost platform; connection with several sensors; easy programming and operation; internet access and, last but not least, low cost.
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