RANCANG BANGUN SISTEM PEMANTAUAN CUACA BERBASIS MIKROKONTROLER NODEMCU ESP32, PANEL SURYA, DAN TAMPILAN WEB DENGAN PHP SEBAGAI PENUNJANG PERTANIAN PRESISI

Muhammad Syafiul Huda, NIM.: 19106020042 (2023) RANCANG BANGUN SISTEM PEMANTAUAN CUACA BERBASIS MIKROKONTROLER NODEMCU ESP32, PANEL SURYA, DAN TAMPILAN WEB DENGAN PHP SEBAGAI PENUNJANG PERTANIAN PRESISI. Skripsi thesis, UIN SUNAN KALIJAGA YOGYAKARTA.

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Abstract

This research is motivated by the magnitude of the impact of climate change on the agricultural sector. This research aims to design, build, and test a weather monitoring system based on NodeMCU ESP32 microcontroller, solar panel, web display with php as a support for precision agriculture. System design is done by creating a system design using Blender software and circuit schematics using Fritzing software. The manufacturing stage is carried out by preparing tools and materials, making hardware, and making software. Preparation of tools and materials includes preparation and checking of tools and materials. Hardware creation includes the creation of power supply, input, and process blocks. Software development includes creating a database, system program, and web viewer. System testing by finding the accuracy and precision value of repeatability with temperature, humidity, wind speed, and rainfall parameters. The parameters of temperature, humidity, and wind speed are compared with the AWS (Automatic Weaher Station) owned by SKY (Yogyakarta Climatology Station), while the rainfall parameter is compared with the standard ombrometer owned by SKY. The weather monitoring system has been successfully designed, built, and tested with the accuracy values of temperature, humidity, wind speed, and rainfall parameters of 97.42%, 91.09%, 10.01%, and 97.35%, respectively. The repeatability precision values obtained on the parameters of temperature, humidity, wind speed, and rainfall were 98.47%, 98.26%, 87.83% and 96.82%, respectively. The results indicate that the monitoring system that has been created has not been fully able to provide accurate and consistent measurements on several parameters.

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