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Design and Control System of Sluice Gate With Web-Based Information

I Gusti Made Ngurah Desnanjaya, I Made Aditya Nugraha

202115 citationsDOI

Abstract

In the rice fields, there is what is called a small stream where water flows to irrigate the rice fields. When it rains it will cause flooding in the rice fields. Floods in rice fields generally occur in rice fields that use a rain-fed water system (depending on the rain). By using a rainfed rice field system, controlling the water entering the rice fields becomes difficult due to the uncertain water level. One of the problems faced by farmers is controlling water flowing into the fields. Seeing these problems, a Door Control system with Web-Based Information was designed and built. This system can display a graph of the meeting water level on the website and can control the meeting door. So that this system helps farmers in getting information on the water level of the meeting and can control the meeting door remotely. The components used to design this system are Arduino Uno as a data processing center, SIM 900 Module for sending data to the database and as SMS recipients, Servo Motor for moving meeting doors, and ultrasonic sensor HCSR04 as water level readings at meetings. Based on the website system test using ISO 1926, a good score was obtained. For the functional system, it gives a good score with a total value of 30. For reliability, it gives a value of 0.99, which indicates that the tool fulfills the reliability. In the usage test, 66.75% gave a good score. on efficiency, it can be concluded that the sluice gate control system with web-based information gets an average score of 87.8 with grade B. Meanwhile, the average load time is 650.8 ms. Based on Nielsen's standards, the average load time of the sluice gate control system with web-based information is good.

Topics & Concepts

SluicePaddy fieldArduinoReliability (semiconductor)Agricultural engineeringComputer scienceWater levelControl systemDoorsEnvironmental scienceEngineeringEmbedded systemOperating systemElectrical engineeringEcologyGeographyCartographyPower (physics)BiologyQuantum mechanicsArchaeologyHistoryPhysicsIoT-based Smart Home SystemsWater Quality Monitoring TechnologiesIoT-based Control Systems
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