Design and Build a Mini Aquaponic Smart System for Subtropical Plants Based on the Internet of Things (IOT)

Arief Hidayat; Sagita Rochman

doi:10.36456/best.vol6.no1.8828

Authors

Arief Hidayat Universitas PGRI Adi Buana
Sagita Rochman Universitas PGRI Adi Buana Surabaya

DOI:

https://doi.org/10.36456/best.vol6.no1.8828

Keywords:

ESP32, PH Sensor, Humidity, Aquaponics, Hydroponics, Fish.

Abstract

As a country with a tropical climate, Indonesia stands out as a land rich in various types of animals and plants. The diversity of climates and environments provides fertile habitats, enabling the survival of various species that adorn Indonesia's natural beauty. To fulfill the desires of subtropical plant lovers whose hobby is agriculture, researchers have the idea of creating a research automatic planting system that can be used to grow subtropical plants in urban areas. The ESP32 acts as a monitoring device that produces vital information regarding environmental conditions, such as soil moisture, water acidity levels, and feed supplies in a system. Through this monitoring, research can collect relevant data to analyze conditions and optimize these factors. The data obtained will be processed and analyzed through daily development comparisons. The existence of intelligent systems, such as monitoring water pH and humidity, providing fish food, and regulating the water content in ponds and hydroponic growing media, can make it easier for those who want to develop farming and fish farming hobbies in urban areas where land is limited and busy with activity.

References

Al Faqih, W. ', Komang Somawirata, I., & Ashari, MI (2023). IoT-Based Grape Planting Media Monitoring System for Generative and Vegetative Phases. http://eprints.itn.ac.id/id/eprint/13182

Anggara Tri Bayu, Rohmah Mimin Fatchiyatur, & Sugianto. (2018). Agricultural Soil Moisture Measuring and Automatic Watering Systems Based on the Internet of Things (IoT). Agricultural Soil Moisture Measuring and Automatic Watering Systems Based on the Internet of Things, 1–8. http://repository.unim.ac.id/id/eprint/241.

Azwardi, Yusuf, DM, & Miftakul Amin, M. (2018). Tool for detecting acidity levels of fruit juice, soft drink and liquid milk using a pH sensor based on the Arduino UNO ATMEGA328 microcontroller. Journal of Engineering, 12(2), 1–11. https://doi.org/10.5281/zenodo.3865138.

Danih, D., & Sugiyatno, S. (2021). Internet of Things (IoT) Based Monitoring System for Controlling Water Quality and Fish Feed in Aquaponic Cultivation Systems. Journal of Students' Research in Computers

Rozie, F., Syarif, I., Al Rasyid, MUH, & Satriyanto, E. (2021). Aquaponic System for Catfish Farming and Hydroponic Water Spinach Plants Based on IoT and Fuzzy Inference System. Journal of Information Technology and Computer Science, 8(1), 157. https://doi.org/10.25126/jtiik.0814025.

Ramadhan, AF (2018). The Effect of Shading on Growth and Yield in Three Varieties of Strawberry Plants (Fragaria chiloensis L.). [Brawijaya University]. http://repository.ub.ac.id/id/eprint/10947

Riyayanti, E. (2021). Determining the properties of acid , base and salt solutions using ornamental plant leaf extract indicators. ACADEMIA: Journal of Academic Research Innovation, 1(2), 176–182. https://doi.org/10.51878/academia.v1i2.672

Saifurdin, AR (2021). Smart Aquaponics System Based on Arduino and IoT. http://eprints.ums.ac.id/id/eprint/93273%0Ahttp://eprints.ums.ac.id/93273/7/NASKAH PUBLICATION.pdf (20 18 ) The IEEE website. [On line]. Available: http://www.ieee.org/

Winarno, Adi, and Mochamad Kevin Nurcahyo. "Smart Home Remote Control System Prototype Using Internet of Things (IoT) Based ESP8266 Microcontroller." BEST: Journal of Applied Electrical, Science, & Technology 5.2 (2023): 60-64.

Tamam, MT, & Aji, DN (2022). Design and Manufacture of Systems for Regulating pH and Water Temperature in Fish Ponds. RESISTOR (Computer Electrical Power Telecommunication Control Electronics), 5(1), 81. https://doi.org/10.24853/resistor.5.1.81-84

Utami, NR, Margareta R, YUA, Partaya, & Sriyadi. (2021). IbM Application of Aquaponic Technology to support urban agriculture in the Green Village housing complex, Kel. Ngijo, District. Gunungpati, Semarang City. BERDAYA Indonesian Journal of Community Empowerment, 1(1), 15–21. https://doi.org/10.15294/berdaya.v1i1.42561

Rochman, Sagita, and Andy Hermawan. "Design and Construction of Screw Type Micro Hydro Power Plant." BEST: Journal of Applied Electrical, Science, & Technology 4.1 (2022): 21-26.

Rochman, Sagita, and Danu Krama. "Arduino-Based Solar Water Pump Motor Control to Adjust Water Circulation in Hydroponic Plants." BEST: Journal of Applied Electrical, Science, & Technology 5.1 (2023): 15-20.

Winarno, Adi, and Awang Joko Mastera. "Desain Sistem Pendeteksi Kebakaran Hutan Dengan Gps Dan Telegram." TESLA: Jurnal Teknik Elektro 25 (2023): 1-12.