Kajian Penggunaan Sensor dalam Sistem Pengujian dan Pemantauan Kualitas Air Minum Layak Konsumsi
DOI:
https://doi.org/10.62383/polygon.v3i1.396Keywords:
drinking water quality, IoT, monitoring system, potable water, sensorsAbstract
The human body cannot work properly without water. Therefore, it is essential to conduct testing and monitoring of drinking water quality to ensure its safety and suitability for consumption. This has prompted researchers to develop more efficient systems compared to traditional methods. This study employs a systematic literature review approach by analysing various published articles to identify and evaluate the application of different types of sensors capable of detecting physical and chemical parameters for assessing drinking water quality. The findings indicate that the integration of sensors, microcontrollers, and Internet of Things (IoT) technology can provide accurate data that is accessible in real-time and remote locations. Furthermore, to enhance the reliability of the system, it is necessary to further develop data processing algorithms by applying artificial intelligence (AI) and/or machine learning technique to create smart systems with improved predictive capabilities. The implementation of these technologies is expected to support the Indonesian government’s Sustainable Development Goals (SDGs) by providing safe and affordable access to drinking water for all its citizens.
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Baco, S., Syarifuddin, R., Sajiah, Rusli, M. A., & Loilatu, M. D. (2023). Rancang Bangun Alat Monitoring pH Air Layak Konsumsi Berbasis Mikrokontroller Arduino Uno Pada Depot Air Minum Adipura 1. Jurnal Teknologi dan Komputer (JTEK), 3(02), 339–345. https://doi.org/10.56923/jtek.v3i02.147
Barung, C. I. (2022). Rancang Bagun Sistem Monitoring Kualitas Air Minum Pada Jasa Layanan Galon Isi Ulang. Jurnal Penelitian Rumpun Ilmu Teknik, 1(4), 144–159. https://doi.org/10.55606/juprit.v1i4.1250
Budi, A. S., Bachri, A., & Hanif, A. (2024). Deteksi Kualitas Air Wslic Via Internet Of Things (IoT). Journal of Electrical Engineering and Computer (JEECOM), 6(1), 8–15. https://doi.org/10.33650/jeecom.v6i1.7345
Butarbutar, A. R., Handayani, F., Vierdiana, D., Mulyani, D., Farlina, B. F., Iswanto, J., & Suriyeni, D. (2024). Hubungan Antara Kualitas Air dan Kejadian Penyakit Infeksi Saluran Pencernaan: Tinjauan Kesehatan Lingkungan. Jurnal Review Pendidikan Dan Pengajaran (JRPP), 7(2), 3637–3647.
Generosa Lukhayu Pritalia. (2022). Analisis Komparatif Algoritme Machine Learning dan Penanganan Imbalanced Data pada Klasifikasi Kualitas Air Layak Minum. KONSTELASI: Konvergensi Teknologi dan Sistem Informasi, 2(1). https://doi.org/10.24002/konstelasi.v2i1.5630
Hamzah, H., Nurkhalis Agriawan, M., & Saldi, M. (2021). Uji Kelayakan Konsumsi Air Sungai Mandar Menggunakan Sensor pH Berbasis Arduino Uno. SAINTIFIK, 7(2), 167–171. https://doi.org/10.31605/saintifik.v7i2.339
Kementerian Kesehatan RI. (2023). Peraturan Menteri Kesehatan Republik Indonesia No. 2 Tahun 2023 tentang Peraturan Pelaksanaan Peraturan Pemerintah Nomor 66 Tahun 2014 tentang Kesehatan Lingkungan.
Khalis, N., Ghofur, Abd., & Lazim, F. (2024). Rancang Bangun Sistem Monitoring Kualitas Air di Pabrik Air Mineral P2s2 CV. Hafas Situbondo Berbasis Internet of Things (IoT). G-Tech: Jurnal Teknologi Terapan, 8(3), 1827–1836. https://doi.org/10.33379/gtech.v8i3.4624
Khatri, P., Gupta, K. K., & Gupta, R. K. (2020). Assessment of Water Quality Parameters in Real-Time Environment. SN Computer Science, 1(6), 340. https://doi.org/10.1007/s42979-020-00368-9
Lestari, A., & Zafia, A. (2022). Penerapan Sistem Monitoring Kualitas Air Berbasis Internet Of Things. LEDGER : Journal Informatic and Information Technology, 1(1), 17–24. https://doi.org/10.20895/ledger.v1i1.776
Listiani, R., Syifa, F. T., & Kurnianto, D. (2024). Sistem Pemantauan Kualitas Air Mineral Berbasis Internet of Things. Elektron : Jurnal Ilmiah, 16(1), 22–28.
Manurung, C. T. H., Arifin, J., Syifa, F. T., & Rochmanto, R. A. (2022). Pemanfaatan ESP32 Sebagai Sistem Pemantauan Kualitas Air Keran Siap Minum Secara Real-Time Menggunakan Aplikasi. Journal of Telecommunication, Electronics, and Control Engineering (JTECE), 4(2), 93–98. https://doi.org/10.20895/jtece.v4i2.535
Muhammad Yusri, Yani Maulita, & Hermansyah Sembiring. (2024). Penerapan IoT dalam Monitoring dan Pengendalian Kualitas Air. Repeater : Publikasi Teknik Informatika dan Jaringan, 2(4), 231–242. https://doi.org/10.62951/repeater.v2i4.250
Muhawarman, A. (2024, Desember 20). Kemenkes Luncurkan Hasil Surveilans Kualitas Air Minum Rumah Tangga di Indonesia Tahun 2023. https://www.kemkes.go.id/id/kemenkes-luncurkan-hasil-surveilans-kualitas-air-minum-rumah-tangga-di-indonesia-tahun-2023.
Muniar, A. Y., & Khair, M. M. (2021). Sistem Monitoring Air Layak Konsumsi Menggunakan Sensor PH Meter. Celebes Computer Science Journal, 3(1), 9–17.
Pademui, F. I., Zuhri, K., & Brajannoto, D. (2022). Sistem Kendali Dan Monitoring Tingkat Kekeruhan Air Pada Air PDAM Menggunakan Arduino Uno. Jurnal Teknologi dan Informatika (JEDA), 3(1). https://doi.org/10.57084/jeda.v3i1.990
Permatasari, I., Tanjung, N. A. F., & Zen, N. A. (2021). Perancangan Sistem Monitoring Konduktivitas dan Padatan Terlarut PDAM Banyumas Berbasis IoT. Jurnal Nasional Teknik Elektro dan Teknologi Informasi, 10(1), 25–31.
Putri, E. S. (2021). Sistem Monitoring Air Layak Konsumsi Berbasis Arduino Uno. Jurnal Perencanaan, Sains, Teknologi, dan Komputer (JuPerSaTek), 4(1), 792–796.
Ramadhan, Z. F., Sugiarto, B., Laluma, R. H., & Gunawansyah, G. (2023). Perancangan Sistem Monitoring Kelayakan Konsumsi Air Minum Berbasis Internet of Things (IoT). Humantech : Jurnal Ilmiah Multidisiplin Indonesia, 2(5), 927–937.
Ranjbar, MD. R., & Abdalla, A. H. (2017). Development of an Autonomous Remote Access Water Quality Monitoring System. Indonesian Journal of Electrical Engineering and Computer Science, 8(2), 467. https://doi.org/10.11591/ijeecs.v8.i2.pp467-474
Rasjid, N., Indra, I., & Alfikri, M. (2022). Rancangan Alat Monitoring Air Layak Konsumsi Berbasis Mikrokontroler. PHYDAGOGIC : Jurnal Fisika dan Pembelajarannya, 4(2), 74–82. https://doi.org/10.31605/phy.v4i2.1636
Riyantoko, P. A., Fahrudin, T. M., & Hindrayani, K. M. (2021). Analisis Sederhana Pada Kualitas Air Minum Berdasarkan Akurasi Model Klasifikasi Dengan Menggunakan Lucifer Machine Learning. PROSIDING SEMINAR NASIONAL SAINS DATA, 1(01), 12–18. https://doi.org/10.33005/senada.v1i01.20
Rouhillah, Rizki Faulianur, & Fira Fazila. (2024). Alat Monitoring Kualitas Air Minum Menggunakan Sensor TDS Berbasis Internet of Things. J-Innovation, 12(2), 43–47. https://doi.org/10.55600/jipa.v12i2.212
Sahida, N., Zaenudin, Muhamad Masjun Efendi, & Lalu Delsi Samsumar. (2024). Sistem Pendeteksi Kuliatas Air Minum Isi Ulang Menggunakan Sensor Ph Berbasis Internet of Things Pada Toko Super Jenih. Jurnal Rekayasa Sistem Informasi dan Teknologi, 2(2), 777–785. https://doi.org/10.70248/jrsit.v2i2.1521
Stacyana Jesika, Suci Ramadhani, & Yohanna Permata Putri. (2023). Implementasi Model Machine Learning dalam Mengklasifikasi Kualitas Air. Jurnal Ilmiah Dan Karya Mahasiswa, 1(6), 382–396. https://doi.org/10.54066/jikma.v1i6.1162
Yushananta, P., Putri, G. C., Widyawati, S., & Sari, A. P. (2022). Aplikasi Sistem Monitoring Kualitas Fisik Air Berbasis Internet of Things Pada PDAM. LINK, 18(1), 22–28. https://doi.org/10.31983/link.v18i1.8379
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