澜沧县班君力士仪表实时基础物联网

JIF Jurnal Ilmu Fisika Pub Date : 2022-03-04 DOI:10.20527/flux.v19i1.9428

Indrawat Wardhana, V. A. Isnaini, R. P. Wirman, Novitasari Novitasari, Ogie Indra Gunawan

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引用次数: 1

摘要

−阳光数据强度对于位于赤道线上的印度尼西亚来说至关重要。该项目开发了一个使用物联网(IoT)的实时阳光强度观测系统，允许从任何位置轻松访问数据。该实用程序使用微控制器NodeMCU和使用Luxmeter Lx-103校准的LDR模块创建。数据通过消息队列遥测传输协议传输，该协议提供了服务质量1协议。审判在室外进行了12个小时。得到线性回归LDR: y = (-128.14*VADC)+18,621.42, R2= 0.9693的研究数据，其中上午9点最大光照强度为21,451.9 Lux，中午平均光照强度范围为13659.26 ~ 20964.86 Lux。NodeMCU处理LDR数据后，延时1秒显示在LCD上。数据以60秒的频率提供给mqtt服务器，最近的步骤记录在SQLite数据库中。

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Rancang Bangun Lux Meter Real Time Berbasis Internet of Things

− Sunlight data intensity is critical for Indonesia, which is positioned on the equator's line. This project develops a real-time sunshine intensity observation system using the Internet of Things (IoT), allowing data to be easily accessed from any location. This utility was created using a microcontroller NodeMCU and an LDR module calibrated with a Luxmeter Lx-103. Data is transmitted via the Message Queuing Telemetry Transport protocol, which provides a protocol Quality of Service 1. The trial lasted 12 hours outside. Obtaining research data that linear regression LDR: y = (-128.14*VADC)+18,621.42 and R2= 0.9693 with maximum sunlight intensity counted at 21,451.9 Lux at 9 AM and an average range of light intensity between 13659.26 and 20964.86 Lux in the middle of the day. NodeMCU processed the LDR data and then displayed it on the LCD with a one-second delay. Data was provided to the mqtt server at a 60second frequency, and the most recent steps were recorded in the SQLite database.

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JIF Jurnal Ilmu Fisika

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审稿时长

6 weeks