Sistem Pemantauan Kualitas Air Mineral Berbasis Internet of Things
Abstract
Research has been carried out regarding checking and monitoring water quality based on parameters of turbidity level and dissolved solids in the water. The aim of this research is to rank water quality based on turbidity parameters and dissolved solids in well water, spring water and packaged product water using the simple additive weighting method. The method used is to design a water quality monitoring system using a turbidity sensor and a TDS (total dissolved solid) sensor. Processing data from sensors uses a microcontroller, namely NodeMCU ESP8266. Water quality ranking is carried out using a simple additive weighting method. The results of water quality testing are displayed on the LCD and the Blynk application using Internet of Things technology. The ranking results show that water sourced from springs is of better quality compared to well water. The water quality ranking for packaged products is ranked first, namely product Y, followed by second rank, namely product X, and finally product Z.
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References
[2] I. Wardhana, V. A. Isnaini, dan R. P. Wirman, "Kajian Tingkat Akurasi Sensor pada Rancang Bangun Alat Ukur Total Dissolved Solids (TDS) dan Tingkat Kekeruhan Air," Jurnal Fisika, vol. 1, pp. 37-46, 2019.
[3] I. Husna, D. N. L. Safitri, and F. L. Mustofa, "ANALISIS KANDUNGAN MINERAL DALAM AIR SUMUR, AIR MINUM BOTOL KEMASAN DAN AIR ISI ULANG DI KECAMATAN KEMILING BANDAR LAMPUNG," MALAHAYATI HEALTH STUDENT JOURNAL, vol. 2, pp. 171-177, 2022.
[4] A. E. Wijaya, and R. B. S. Sukarni, "SISTEM MONITORING KUALITAS AIR MINERAL BERBASIS IOT (INTERNET OF THINGS) MENGGUNAKAN PLATFORM NODE-RED DAN METODE SAW (SIMPLE ADDITIVE WEIGHTING)," Jurnal Teknologi Informasi dan Komunikasi, vol. 1, pp. 100-110, 2019.
[5] A. Z. Z. Abidin, and N. A. A. Saragih, "SISTEM MONITORING KANDANG BURUNG PUYUH BERBASIS INTERNET OF THINGS PADA PLATFORM NODE-RED MENGGUNAKAN METODE NAIVE BAYES," Jurnal Teknologi Informasi dan Komunikasi, vol. 13, pp. 16-25, 2019.
[6] S. M. Maulina, M. L. Widodo, and Z. Wahyu, "ANALISIS KUALITAS AIR DAERAH IRIGASI LUBUK ANTUK KECAMATAN HULU GURUNG KABUPATEN KAPUAS HULU," Jurnal Teknik Sipil, vol. 20, pp. 1-10, 2020.
[7] G. C. Putri, and P. Yushananta, "RANCANG BANGUN SISTEM MONITORING KEKERUHAN DAN TDS BERBASIS INTERNET OF THINGS," Jurnal Ilmu Kesehatan Masyarakat, vol. 18, pp. 210-216, 2022.
[8] T. Rikanto, and A. Witanti, "Sistem Monitoring Kualitas Kekeruhan Air Berbasis Internet Of Thing," JURNAL FASILKOM, vol. 11, pp. 87-90, 2021.
[9] A. Supriyanto, H. Rhomadhona, and A. Noor, "APLIKASI PENDETEKSI KUALITAS AIR MENGGUNAKAN TURBIDITY SENSOR DAN ARDUINO BERBASIS WEB MOBILE," Jurnal CoreIT, vol. 5, pp. 13-18, 2019.
[10] K. Zuhri, D. Brajannoto, and F. I. Pademui, "Sistem Kendali Dan Monitoring Tingkat Kekeruhan Air Pada Air PDAM Menggunakan Arduino Uno," Jurnal Teknologi dan Informatika (JEDA), vol. 3, pp. 1-9, 2022.
[11] D. Y. Prasetyo, "SISTEM PENENTUAN KUALITAS AIR MINUM DI KABUPATEN INDRAGIRI HILIR DENGAN METODE," Jurnal BAPPEDA, vol. 4, pp. 65-72, 2018.
[12] S. Indriyanto, F. T. Syifa, and H. A. Permana, "Sistem Monitoring Suhu Air pada Kolam Benih Ikan Koi Berbasis Internet of Things," Jurnal Telekomunikasi, Elektronika, Komputasi, dan Kontrol, vol. 6, pp. 10-19, 2020.
[13] D. Megawati, K. Masykuroh, and D. Kurnianto, "Rancang Bangun Sistem Monitoring PH dan Suhu Air pada Akuaponik Berbasis Internet of Thing (IoT)," Jurnal Telekomunikasi, Elektronika, Komputasi, dan Kontrol, vol. 6, pp. 124-137, 2020.
[14] I. M. Widiantara, Linawati, and D. M. Wiharta, "RANCANG BANGUN AKUAPONIK BERBASIS INTERNET OF THINGS," Jurnal SPEKTRUM, vol. 8, pp. 243-253, 2021.
[15] D. Kurnianto, A. Wijaya, and M. A. Amanaf, "Sistem Pengisian Token Listrik Jarak Jauh Berbasis IoT pada Alat Ukur Listrik Rumah," Jurnal Telekomunikasi, Elektronika, Komputasi, dan Kontrol, vol. 8, pp. 14-23, 2022.
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