Open AccessDesign and Implementation of IoT-Based Water Pipe Pressure Monitoring Instrument
Author(s) -
Hollanda Arief Kusuma,
Rady Purbakawaca,
Irwan Rudy Pamungkas,
Luthfy Nizarul Fikry,
Sonny Seftian Maulizar
Publication year - 2021
Publication title -
jurnal elektronika dan telekomunikasi
Language(s) - English
Resource type - Journals
eISSN - 2527-9955
pISSN - 1411-8289
DOI - 10.14203/jet.v21.41-44
Subject(s) - microcontroller , dashboard , gsm , pipeline (software) , pressure sensor , bar (unit) , real time computing , general packet radio service , computer science , computer hardware , embedded system , pressure measurement , scada , stm32 , data acquisition , engineering , wireless , automotive engineering , electrical engineering , telecommunications , operating system , mechanical engineering , chip , physics , meteorology
The water pressure monitoring system in the PDAM pipeline networks has been successfully developed for operation and maintenance of water leaks in a real-time manner. This research aims to design a water pressure monitoring system in operational piping networks to identify anomalies as early as possible. The system is built using a microcontroller, a 1.2 MPa fluid pressure sensor and a control system equipped with a GSM wireless communication module, an Analog to Digital Converter module with 16-bit resolution, a real-time clock peripheral, an OLED display 128x64, and a micro SD card. The developed system was tested in a pressure range of 0.200 - 0.800 bar with 30 repetitions with a RMSE of 0.058 bar. This system has a deterministic coefficient of 0.885 against a standard manometer. The system implemented in the field successfully sends data to the server with a success rate of 96.0%. Data is displayed on a monitoring dashboard that can be accessed via a computer or smartphone.
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