Internet Of Things (Iot)-Based Prototype For Monitoring Water Level And Turbidity In Water Tanks
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Abstract
Water is an essential resource for human survival. Sufficient availability and good quality of water are crucial for various daily activities. Water tanks are commonly used as a storage medium for water. Weather changes, pollution, and other factors can affect water quality. Hence, continuous water level and turbidity monitoring are essential in maintaining water quality. The Internet of Things (IoT) technology has emerged as a solution for monitoring water levels and turbidity in water tanks. This system provides real-time monitoring of water conditions in the tanks via the Internet. The objective of this research was to develop a system and device that could monitor the water level and turbidity in water tanks with the assistance of a camera. The results indicated that the system could maintain the water level by activating the pump when it falls below 20% and automatically shutting it off when it exceeds 80%. Moreover, the system will automatically notify Blynk if the water turbidity exceeds 25 NTU.
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[2] Septyaningrum, A. E., & Kurniawan, W. D. (2021). Analisa Sistem Pengendalian dan Monitoring Tingkat Kekeruhan Tandon Air Berbasis Arduino UNO dan Internet of Things. JPTM. Volume 10 Nomor 02 Tahun 2021, 26 - 32, 26-32.
[3] Delwizar, M. A., Arsenly, A., Irawan, H., Jodiansyah, M., & Utomo, R. M. (2021). Perancangan Prototipe Sitem Monitoring Kejernihan Aair dengan Sensor Turbidity pada Tandon Berbasis IoT. Jurnal Teknologi Elektro, Vol. 12. No. 3, September 2021, Vol. 2, No. 1, ISSN : : 2503 – 250X, 106-112.
[4] Fatahillah, M. Z. (2023). Perancangan Aplikasi Berbasis Teknologi Internet Untuk Sistem Pengendali Alat Penyimpan Air. Jurnal Penelitian Rumpun Ilmu Teknik (JUPRIT), 139-157.
[5] Rohpandi, D., Mulady, F., & Sambani, E. B. (2021). Rancang Bangun Pompa Air Otomatis Dan Sistem Monitoring Kekeruhan Air Berbasis Iot Pada Tandon Air. JURNAL SISTEM INFORMASI DAN TEKNOLOGI INFORMASI Vol. 10, No. 2, Oktober 2021, 209-219.
[6] Rusito. (2021). TEKNOLOGI INTERNET Dasar Internet, Internet of Things (IOT) dan Bahasa HTML. Semarang: Yayasan Prima Agus Teknik.
[7] Banzi, M., & Shiloh, M. (2015). Getting Started with Arduino. California: Maker Media.
[8] Kusuma, H. A., Suhendra, T., Yunianto, A. H., Egistian, F., & Siagian, R. B. (2022). Pemrograman Dasar Internet of Things Menggunakan ESP8266. Tanjungpinang: UMRAH Press.
[9] Sujarwata. (2016). BELAJAR MIKROKONTROLER PICI6C57 DENGAN BAHASA PEMROGRAMAN PBASIC. Sleman: Deepublish.
[10] Aurelia, S., & Paiva, S. (2022). Immersive Technology in Smart Cities Augmented and Virtual Reality in IoT. Cham: Springer Nature Switzerland AG.
[11] Chen, J. l.-Z., Tavares, J. M., & Shi, F. (2022). Third International Conference on Image Processing and Capsule Networks. Cham: Springer Nature Switzerland AG.
[12] Hakim, L., Afriliana, I., & Nurohim. (2022). Implementasi Mikrokontroler dan Sensor MQ2 pada Sistem Proteksi Kebocoran Gas LPG Rumah Tangga. Pekalongan: PT.Nasya Expanding Management (Penerbit NEM).
[13] Si Made Angga Dwitya P , Mohamad Nurkamal Fauzan, S. F. P. (2020). Tutorial Pembuatan Prototype Pendeteksi Kebakaran (Fido) Berbasis IoT Dengan Metode Naive Bayes. Kreatuf Industri Nusantara.
[14] Castrignano, A., Buttafuoco, G., Khosla, R., Mouazen, A. M., Moshou, D., & Naud, O. (2020). Agricultural Internet of Things and Decision Support for Precision Smart Farming. Amsterdam: Elsevier Science.
[15] Das, H., Dey, N., & Balas, V. E. (2019). Real-Time Data Analytics for Large Scale Sensor Data. Amsterdam: Elsevier Science.
[16] Sebayang, P., Muljadi, Tetuko, A. P., Kurniawan, C., Sari, A. Y., & Nurdiyansah, L. F. (2015). Teknologi Pengolahan Air Kotor dan Payau Menjadi Air Bersih dan Layak Minum. Jakarta: LIPI Press.
[17] Sa, P. K., Sahoo, M. N., Murugappan, M., & Wu, Y. (2018). Progress in Intelligent Computing Techniques: Theory, Practice, and Application (B. Majhi (ed.)). Springer Nature.