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All Journal Indonesian Journal of Electrical Engineering and Computer Science
Syila Izawana Ismail
Universiti Teknologi MARA

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Arduino based irrigation monitoring system using Node microcontroller unit and Blynk application Syahir Haziq Shahar; Syila Izawana Ismail; Nik Nur Shaadah Nik Dzulkefli; Rina Abdullah; Mazratul Firdaus Mohd Zain
Indonesian Journal of Electrical Engineering and Computer Science Vol 31, No 3: September 2023
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijeecs.v31.i3.pp1334-1341

Abstract

In the case of traditional irrigation systems, irrigation is done manually by the user. Since the water is irrigated directly into the land, plants undergo high stress from variations in soil moisture, and therefore plant appearance is reduced. The objective is for remote monitoring and controlling devices, which are controlled using a Wi-Fi module, and to optimize water consumption. The sensors collect and evaluate data regarding changing weather, soil moisture levels, and water levels before sending timely notifications to the user's phone and desktop. The system also contains a device application (Blynk) that runs on various devices and may be used to monitor plant conditions at the user's workplace. It constantly monitors the situation and notifies the user of any developments that necessitate urgent action. It combines the sensor devices, Node microcontroller unit (NodeMCU), and Arduino to work together to meet the system's objectives.
Development of dam controller technology water level and alert system using Arduino UNO Mazratul Firdaus Mohd Zin; Farid Zuhri Kamal; Syila Izawana Ismail; Ku Siti Syahidah Ku Mohd Noh; Abdul Hafiz Kassim
Indonesian Journal of Electrical Engineering and Computer Science Vol 31, No 3: September 2023
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijeecs.v31.i3.pp1342-1349

Abstract

Recently, various water level detection monitoring systems integrations were implemented to various places such as rivers and reservoirs to avoid floods. Thus, it is determined to construct a project primarily focused on water level management, named dam controller technology (DCOTech). DCOTech is a system that controls the amount of water in a reservoir using a microcontroller ATMEGA328p and several functions to prevent flash floods. Water sustainability requires proper monitoring via sensors and a controller. Moreover, a buzzer is used in DCOTech to give a warning signal to the people around and the residents. The water level sensor was constructed with a metal plate attached at both the bottom and top edges of the reservoir. The results obtained met expectations; whenever the sensor detects the water level is low, the green light emitting diode (LED) is turned on; otherwise, when the sensor detects the water level is high, the drain valve is opened, and simultaneously, turned on the buzzer to alert the surrounding. The goal of this project is to integrate a control system into an autonomous water level controller. This study aims to provide a solution to unexpected floods and to notify inhabitants when the water level is dangerously high.
Co-Authors Abdul Hafiz Kassim Farid Zuhri Kamal Ku Siti Syahidah Ku Mohd Noh Mazratul Firdaus Mohd Zain Mazratul Firdaus Mohd Zin Nik Nur Shaadah Nik Dzulkefli Rina Abdullah Syahir Haziq Shahar