Design and Development of a sustainable telemetry system for environmental parameters

2021 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE) Pub Date : 2021-11-01 DOI:10.1109/ICMEAE55138.2021.00049

Alejandro Vargas, J. Valdez-Martínez, Alberto M. Beltrán-Escobar, Jonathan Villanueva-Tavira, Luis J. López-Vega, Iván Alcalá-Barojas, Enrique Contreras Calderón, Hector Miguel Buenabad Arias

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Abstract

The objective of this manuscript is to show the delineation and construction process of a communication system based on the client-server software architecture, for the remote monitoring of environmental parameters. The server will be programmed in Python® on an embedded computer system such as Raspberry Pi®. An arrangement of photo-voltaic cells was added to this system, as well as a charging module in order to make it sustainable. For the reception and plotting of the measurements obtained from the environmental parameters, two clients will be programmed in different operating systems. The first client will be programmed in App Inventor® for a smartphone with Android® system. The second client will be developed in LabVIEW® for Windows® / MacOS®. The results obtained allowed to conclude that the communication scheme shown can work with multiple operating systems and is stable for sending the environmental parameters.

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可持续环境参数遥测系统的设计与开发

本文的目的是展示基于客户端-服务器软件架构的通信系统的描述和构建过程，用于远程监测环境参数。服务器将在嵌入式计算机系统(如Raspberry Pi®)上用Python®编程。光伏电池的排列被添加到这个系统中，以及一个充电模块，以使其可持续发展。为了接收和绘制从环境参数中获得的测量结果，两个客户端将在不同的操作系统中编程。第一个客户端将在App Inventor®中编程，用于Android®系统的智能手机。第二个客户端将在Windows®/ MacOS®的LabVIEW®中开发。实验结果表明，该通信方案可以在多种操作系统下工作，并且在发送环境参数时是稳定的。

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

2021 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE)

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