AUTOMATIC WATERING AND FERTILIZING WITH MICROCONTROL WEMOS D1 R2 BASED ON IoT (Internet of Things)

Supratno, Setyo and Samsiana, Seta (2023) AUTOMATIC WATERING AND FERTILIZING WITH MICROCONTROL WEMOS D1 R2 BASED ON IoT (Internet of Things). AIP Conference Proceeding, 2706 (1). ISSN 0094243X 15517616

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Abstract

Watering and liquid fertilization carried out by plant owners are still manual, where the owner's involvement in these two things requires a long free time until the plants are wet and adequate fertilization is achieved. In other conditions, more attention to the survival and maintenance of plants through watering and fertilization is an absolute necessity so that plants do not wilt easily and eventually die. A solution for watering and fertilizing liquids is automatically offered through the design of watering and fertilizing liquids with a microcontroller as a control center based on Internet of Things communication. The tool is designed to automatically water and fertilize plants and generate a remote monitoring system for soil moisture using the Thinger.Io application. The method used in realizing this design includes several stages, namely system block diagram planning, electrical and mechanical system planning, software design and system testing to prove the tool can work properly according to the initial design. Supporting components for controlling watering and liquid fertilization using Wemos D1 R1, Capacitive soil moisture sensor as a soil moisture sensor, Real-Time Clock (RTC) module as a fertilizer timer. Relay that functions as a switch to turn the pump on and off. The results of the performance of the designed tool can do watering automatically when the soil moisture level is below 20% and will stop when the soil moisture is more than 40%. Meanwhile, liquid fertilization will automatically work according to a predetermined time. The existing monitoring system is accessed using smartphones and computers with the help of the thinger.io application as long as the device is connected to the internet network. Meanwhile, liquid fertilization will automatically work according to a predetermined time. The existing monitoring system is accessed using smartphones and computers with the help of the thinger.io application as long as the device is connected to the internet network. Meanwhile, liquid fertilization will automatically work according to a predetermined time. The existing monitoring system is accessed using smartphones and computers with the help of the thinger.io application as long as the device is connected to the internet network.

Item Type:	Article
Keywords / Kata Kunci:	Ornamental Plants, Automatic Watering and Fertilizing, Monitoring, Internet of Things. Thinger.io
Subjects:	Kendali/Kontrol
Faculty:	Fakultas Teknik > Teknik Elektro S1
Depositing User:	Mr Dr. Setyo Supratno, S.Pd., M.T.
Date Deposited:	11 Oct 2024 03:54
Last Modified:	11 Oct 2024 03:54
URI:	http://repository.unismabekasi.ac.id/id/eprint/6785

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