SISTEM PENGENDALIAN POMPA AIR OTOMATIS DAN SISTEM MONITORING KEKERUHAN AIR PADA TANDON AIR BERBASIS INTERNET OF THINGS (IOT)

REZA OKTAVIA, . (2024) SISTEM PENGENDALIAN POMPA AIR OTOMATIS DAN SISTEM MONITORING KEKERUHAN AIR PADA TANDON AIR BERBASIS INTERNET OF THINGS (IOT). Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Tujuan dari penelitian ini adalah untuk merancang bangun dan menguji sistem pengendalian pompa air otomatis dan sistem monitoring kekeruhan air pada tandon air berbasis Internet of Things (IoT). Diharapkan sistem pada alat ini dapat membantu dalam pengendalian dan me-monitoring kekeruhan air, ketinggian air dan debit air secara otomatis melalui aplikasi Blynk. Penelitian dilakukan menggunakan metode penelitian Rekayasa Teknik. Sistem pengendalian pompa air otomatis menggunakan radar pelampung air sehingga dapat menghidupkan dan mematikan aliran air pada permukaan tertentu. Sistem monitoring menggunakan ESP32 sebagai mikrokontroler, sensor ultrasonik, sensor turbidity, dan sensor water flow yang diintegrasikan dengan aplikasi Blynk sebagai Internet of Things (IoT). Dengan keunggulan bersifat mudah digunakan dan dapat diakses dari jarak jauh. Hasil Pengujian pada sistem pengendalian pompa air otomatis dan sistem monitoring kekeruhan air pada tandon air berbasis Internet of Things (IoT) berhasil menghidupkan dan mematikan aliran air serta membaca data sensor ultrasonik, sensor turbidity, dan sensor water flow. Hasil pengujian pada aplikasi Blynk juga mendapatkan informasi mengenai pembacaan data sensor dan mengirimkan notifikasi nilai kekeruhan > 25 NTU pada smarthphone dan e-mail. Hasil pengujian latency (delay) didapatkan nilai rata-rata latency (delay) 2,2795 ms, maka sesuai dengan tabel 2.8. dikategorikan sangat bagus dan memperoleh indeks 4. Hasil pengujian jitter yang telah dilakukan didapatkan nilai rata-rata jitter 10,3 ms, maka sesuai dengan tabel 2.9. dapat dikategorikan bagus dan memperoleh indeks 3. ***** The purpose of this research is to design and test an automatic water pump control system and a water turbidity monitoring system in water reservoirs based on the Internet of Things (IoT). It is expected that the system in this tool can help in controlling and monitoring water turbidity, water level and water discharge automatically through the Blynk application. The research was conducted using the Engineering Engineering research method. The automatic water pump control system uses a water buoy radar so that it can turn on and off the water flow on a certain surface. The monitoring system uses ESP32 as a microcontroller, ultrasonic sensor, turbidity sensor, and water flow sensor integrated with Blynk application as Internet of Things (IoT). With the advantage of being easy to use and can be accessed remotely. The test results on the automatic water pump control system and the water turbidity monitoring system in the Internet of Things (IoT)-based water reservoir successfully turned on and off the water flow and read the ultrasonic sensor data, turbidity sensor, and water flow sensor. The test results on the Blynk application also get information about sensor data readings and send notifications of turbidity values> 25 NTU on smartphones and e-mail. The latency (delay) test results obtained an average latency (delay) value of 2.2795 ms, then according to table 2.8. The results of jitter testing that have been carried out obtained an average jitter value of 10.3 ms, so according to table 2.9. can be categorized as good and get index 3.

Item Type: Thesis (Sarjana)
Additional Information: 1). Dr. Wisnu Djatmiko, M.T. ; 2). Dr. Muhammad Yusro, M.Pd, M.T.
Subjects: Teknologi dan Ilmu Terapan > Teknik Elektronika
Divisions: FT > S1 Pendidikan Teknik Elektronika
Depositing User: Users 23289 not found.
Date Deposited: 26 Jul 2024 01:38
Last Modified: 26 Jul 2024 01:38
URI: http://repository.unj.ac.id/id/eprint/46645

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