Design of an Internet of Things (IoT) based Main Reservoir Water Level Measuring Device at Siti Hajar Hospital Sidoarjo

Adi Winarno; Sagita Rochman; Bagus Nanda

doi:10.36456/zckxkc65

Authors

Adi Winarno Universitas PGRI Adi Buana Surabaya
Sagita Rochman Universitas PGRI Adi Buana Surabaya
Bagus Nanda

DOI:

https://doi.org/10.36456/zckxkc65

Keywords:

MIT App Inventor, IoT, ESP32 , Sensor Ultrasonic, Sistem Monitoring

Abstract

The volume of water levels in hospital water reservoirs really requires full monitoring. Where water reservoirs often run out when the water is to be used. This is very fatal and hinders activities that must be carried out immediately. If this happens, it will result in the failure of ongoing activities at the hospital. This research aims to design a prototype that is capable of monitoring water levels in IoT-based hospital reservoirs. By designing a water level monitoring system in the reservoir using the HC-SR04 ultrasonic sensor as an input that measures water level and ESP32 as a microcontroller. The application produced from MIT App Inventor is a notification output and can display monitoring results. Based on the research results, it shows that the water level monitoring system in the reservoir can work well as expected, namely when the water is at the 25% limit, the application will send a notification to the smartphone in the form of sound so that users or technicians can find out and find the cause of the decreasing water level.

References

[1] Putra Arief Rachman Hakim, D., Budijanto, A., Widjanarko, B., Teknik, F., Teknik Elektro, J., Widya Kartika, U., & Sutorejo Prima Utara, J. I. (2018). JURNAL IPTEK MEDIA

KOMUNIKASI TEKNOLOGI Sistem Monitoring Penggunaan Air PDAM pada Rumah Tangga Menggunakan Mikrokontroler NODEMCU Berbasis Smartphone ANDROID. Jurnal IPTEK, 22. https://doi.org/10.31284/j.iptek.2018.v22i2

[2] Muklisin, I., & Sholehuddin, A. (2017). Imam Muklisin, Ahmad Sholehuddin, Muklison. 2017. Pendeteksi Volume Tandon Air Secara Otomatis Menggunakan Sensor Ultrasonic Berbasis Arduino Uno R3. Jurnal Qua Teknika, 7(2), 55–65.

[3] Ardi Wahyu Widyatmika, P. (2021). Perbandingan Kinerja Arduino Uno dan ESP32 Terhadap Pengukuran Arus dan Tegangan. Jurnal Otomasi, Kontrol & Instrumentasi, 31.

[4] Alkodri, M. N., & Purnama, A. (2019). E-Tech PENGEMBANGAN MEDIA PEMBELAJARAN BERBASIS ANDROID DENGAN APP INVENTOR PADA MATA KULIAH BAHASA PEMROGRAMAN. Ejournal.Unp.Ac.Id.

https://doi.org/10.1007/XXXXXX-XX-0000-00

[5] ALLDATASHEETCOM, U. (n.d.). Typical Application (Fixed Output Voltage Versions). www.umw-ic.com

[6] Chwalisz, M. (2019). thingspeak Documentation Release 1.0.0 Mikołaj Chwalisz (Vol. 1).

[7] Damayanti, T. N., Ramadan, D. N., & Utami, I. M. (2021). MyLib: Smart Library Indoor Navigation Using Bluetooth Low Energy with Triangulation Method. International Journal of Electronics and Telecommunications, 293–298. https://doi.org/10.24425/ijet.2022.139881

[8] Febriani, S. (2022). Analisis Deskriptif Standar Deviasi. Jurnal Pendidikan Tambusai, 6.

[9] Fitrya, N., Ginting, D., Retnawaty, F., Febriani, N., Fitri, Y., Putra, S., Fakultas, W., Kesehatan, D., Muhammadiyah, U., Universitas, R., & Riau, M. (2017). PENTINGNYA AKURASI DAN PRESISI ALAT UKUR DALAM RUMAH TANGGA.

Jurnal Untuk Mu NegeRI, 1(2).

[10] Imawan Putra, R., Gustiana Husada, M., & Nana Bermana, A. (2021). Pengukuran dan Perolehan Error Pada Sistem Monitoring Kondisi Ban Kendaraan.

[11] Mahfudz Hayusman, L., Ali Watoni, M., Robinson, E., Rezki Saputra, R., Studi Teknik Listrik D-, P., Teknik Elektro, J., & Negeri Banjarmasin, P. (2020). PENERAPAN WATER LEVEL CONTROL TIPE RADAR DAN OMRON 61F-G-AP UNTUK PROSES PENGISIAN AIR BERSIH DI KOMPLEK PERINTIS, KOTA BANJARBARU. Jurnal Aplikasi Dan Inovasi Ipteks SOLIDITAS, 3.

[12] Rafi, A., & Tahtawi, A. (2018). Kalman Filter Algorithm Design for HC-SR04 Ultrasonic Sensor Data Acquisition System. IJITEE, 2(1).

[13] Sulaimn Ambu Saidi, S., Hamed ALabri, K., Salim Azwani, I. AL, Azan Ali AL-Shaibani, S., & Muthu, A. (2021). Arduino Based Smart Phone Liquid Level Monitoring System Using Ultrasonic Sensor. International Journal of Engineering Research and Applications Www.Ijera.Com, 11, 41–45. https://doi.org/10.9790/9622-1108024145

[14] Winarno, Adi, and Dimas Ricky Saputra. "Home Door Security System with Face Recognition Using ESP 32 Cam:" Home Door Security System with Face Recognition Based on ESP 32 Cam: A Smart Solution for Your Home Security"." BEST: Journal of Applied Electrical, Science, & Technology 6.2 (2024): 9-14.

[15] Wahyu Cahyaka, H., Penyunting, M., Titiek Winanti, E., Kusnan, I., Frida DBP, N., Esti Darsani, N., & Supryatno, D. (2018). Penerapan Modul Untuk Mata Pelajaran Gambar Teknik Pada Jurusan Teknik Gambar Bangunan Smk Negeri 2 Bangkalan. Jurnal Kajian Pendidikan Teknik Bangunan, 1.

[16] Solikin, Akhmad, Adi Winarno, and Farrosy Zamir Irtany. "Sistem Kontrol Listrik Skala Rumah Tangga Berbasis IoT Menggunakan NodeMCU." JE-Unisla 9.1 (2024): 70-74.

[17] Yin, H. (2016). Smart Home Smoke Detection and Relay Contract based on STM32.

[18] Atmiasri, A., & Rochman, S. (2011). Pendeteksi Logam Untuk Industri Makanan Berbasis PLC. WAKTU: Jurnal Teknik UNIPA, 9(1), 78-81.

[19] Winarno, A., Rochman, S., & Thoyibin, M. (2023). Rancang Bangun Sistem Otomatisasi Penyiraman Tanaman Tomat Berbasis Internet of Things. Voteteknika (Vocational Teknik Elektronika dan Informatika), 11, 473-480.

[20] Hidayat, A., & Rochman, S. (2024). Design and Build a Mini Aquaponic Smart System for Subtropical Plants Based on the Internet of Things (IOT). Best: Journal of Applied Electrical, Science and Technology, 6(1), 14-19.

[21] Alhamda, M. S., Ilham, M., & Rochman, S. (2026). Prototipe Sistem Penyiraman Tanaman Otomatis Dengan Monitoring Suhu Dan Kelembapan Pada Tanah Menggunakan ESP 32 Berbasis IOT. JE-Unisla, 11(1), 11-20.

[22] Irtany, F. Z., & Rochman, S. (2026). RANCANG BANGUN PEMBANGKIT LISTRIK TENAGA SURYA DAN SISTEM MONITORING DAYA LISTRIK PADA BEBAN RUMAH TIPE R 1 BERBASIS INTERNET OF THINGS. Jurnal Qua Teknika, 16(01), 72-85.

[23] Rochman, S., Musthofa, A. N., & Firmansyah, M. R. (2024). Design and Construction of Power Monitoring and Circuit Breaker Devices for PLN Customers based on IoT. Best: Journal of Applied Electrical, Science and Technology, 6(2), 69-74.