Design of Water Level Detection Using Ultrasonic Sensor Based On Fuzzy Logic

Fadhillah Azmi(1*), Insidini Fawwaz(2), Muhathir Muhathir(3), N P Dharshinni(4),

(1) Universitas Prima Indonesia
(2) Universitas Prima Indonesia
(3) Universitas Medan Area
(4) Universitas Prima Indonesia
(*) Corresponding Author


Water is one of the natural resources that are needed by creatures on earth. And the need for clean water is increasing, so the price of water, both bottled water and the price of water from the PDAM. Therefore, it is necessary to have a design that can control water needs, such as the water level for filling the required containers, controlling the water level in the reservoir, etc. according to human needs so that no waste of water occurs. This research was conducted to design water level detection by combining hardware and software, namely ultrasonic sensors as detection, Arduino Uno microcontroller as a process, and fuzzy logic as an analysis of data delivered by ultrasonic sensors. So, this design can be utilized in various fields both industrial and home. This water level detection is designed using ultrasonic sensors as distance monitoring, servo motor, LED warning, and buzzer. Fuzzy logic is applied to the ability of a tool designed by determining the desired set point of water. Test results that have been carried out with Fuzzy Logic with 5 levels, are level 1 (0 – 6 cm), level 2 (6.1 – 12 cm), level 3 (12.1 cm – 18 cm), level 4 (18.1 cm – 24 cm), and level 5 (24.1 – 30 cm).


Water level; ultrasonic; Fuzzy logic.

Full Text:



Amin, A. (2018). MONITORING WATER LEVEL CONTROL BERBASIS ARDUINO UNO MENGGUNAKAN LCD LM016L. Electric Electronic Instrumentation Control and Telecommunication. Vol 1, No 1.

Dixit, R., Chaudhari, H., Jadhav, S., & Jagtap, K. (2017). WATER LEVEL AND LEAKAGE DETECTION SYSTEM WITH ITS QUALITY ANALYSIS BASED ON SENSOR FOR HOME APPLICATION. International Research Journal of Engineering and Technology (IRJET). Vol 04, Issue: 11, Nov-2017. 2395-0056.

Hendrayudi. (2009). VB 2008 UNTUK BERBAGAI


Muhathir, M. (2015). Penentuan Kelayakan Penerbitan Paper Menggunakan Fuzzy Logic (Studi Kasus Universitas Malikussaleh). Seminar Nasional Teknologi Rekayasa.

Nugoro, AT., Tibyani., & Putri, M R R. (2018). KONTROL KETINGGIAN AIR PADA BUDIDAYA IKAN DAN TANAMAN YUMINA BUMINA MENGGUNAKANMETODE FUZZY TAKAGI-SUGENO. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer. Vol 2, No 7, Juli 2018, hlm. 2730-2737.

Parashar, M., Patil, R., Singh, S., VedMohan.,& Rekha, KS. (2018). WATER LEVEL MONITORING SYSTEM IN WATER DISPENSERS USING IOT. International Research Journal of Engineeing and Technology (IRJET). Vol 05, Issue: 04, Apr-2018. 2395-0056.

Odli, M Z S., Izhar, T., Razak, A., Yusuf, Y., Zakarya, A., Saad, M., & Nor, M. (2016). DEVELOPMENT OF PORTABLE WATER LEVEL SENSOR FOR FLOOD MANAGEMENT SYSTEM. ARPN Journal of Engineering and Applied Sciences. Vol 11, No 8, April. 1819-6608.

Shrivastava, A. K., Verma, A., & Singh, SP. (2010). DISTANCE MEASUREMENT OF AN OBJECT OR OBSTACLE BY ULTRASOUND SENSORS USING P89C51RD2. International Journal of Computer Theory and Engineering. Vol 2 No 1 February. 1793 – 8201.

Skiena, S S. (2013). THE ALGORITHM DESIGN MANUAL. Springer, T., Sutojo, E M, Vincent, S. (2011). Kecerdasan Buatan. Andi Offset, Yogyakarta


Article Metrics

Abstract view : 0 times
PDF - 0 times


  • There are currently no refbacks.

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.