Design And Design Of A Temperature And Humidity Monitoring System For Broiler Chicken Cages Based Internet Of Things (IOT)

Authors

  • Robby Adrian Prasetia Politeknik Negeri Padang, Indonesia Author
  • Andi Ahmad Dahlan Politeknik Negeri Padang, Indonesia Author
  • Lifwarda Politeknik Negeri Padang, Indonesia Author

DOI:

https://doi.org/10.62671/perfect.v1i2.23

Keywords:

IoT, DHT22, Broiler Chicken Cages, Humidity Monitoring

Abstract

In this research, we designed a tool that is used to help chicken farmers to continue their daily activities in raising livestock. Problems often experienced by chicken farmers are frequent theft, and having to check the temperature manually in the coop. So a Security and Temperature Monitoring and Light Control System for Broiler Chicken Cages Based on Internet of Things (IoT) was created using NodeMcu Esp32 as the controller of the entire system. The tools used in this system are, Buzzer, DHT22, LCD 16x2, ESP32, Breadboard, Relay, and Incandescent Lamp. The tool making method uses engineering design methods in making the automation system. The test results show that the system that has been made is able to maintain the temperature in the chicken coop in accordance with the ideal conditions for Broiler chickens.

References

Abidin, Z., Nadhif, M., & Arif, M. (2022). Prototype Design of Control Device and Temperature and Humidity Detection for Broiler Chicken Cages Using IoT-Based Fuzzy Method. ELECTRA Journal: Electrical Engineering Articles, 3(1).

Achmady, S., Qadriah, L., & Auzan, A. (2022). Design a magnetic solenoid door lock with speech recognition using Android-based nodemcu.

Agusta, A. R., Andjarwirawan, J., & Lim, R. (2019). Implementation of the internet of things to maintain air humidity in mushroom cultivation. Infra Journal, 7(2), 95-100.

Arief, M. R. (2006). Database Programming Using Transact-SQL with Microsoft SQL Server 2000. Andi Publisher.

Arijaya, I. M. N. (2019). Conveyor Equipment Design for Arduino Uno Microcontroller Based Goods Sorting System. Journal of RESISTOR (Computer Systems Engineering), 2(2), 126-135.

Artiyasa, Marina, et al. Internet of Things Based Chicken Cage Temperature Monitoring Automatic Control System. Nusa Putra Technology Engineering Journal, 2016, 3.1: 53–65-53–65.

Corbafo, Egas De Jesus Martins, et al. "DESIGN AND DESIGN OF A SAFETY SYSTEM AND TEMPERATURE MONITORING AND LIGHT CONTROL FOR BROILER CHICKEN CAGES BASED ON THE INTERNET OF THINGS (IoT)." Smart Techno (Smart Technology, Informatics and Technopreneurship) 5.2 (2023): 10-16.

Corbafo, E. D. J. M., Kelen, Y. P., Baso, B., & Sucipto, W. (2023). DESIGN AND DESIGN OF A SAFETY SYSTEM AND TEMPERATURE MONITORING AND LIGHT CONTROL FOR BROILER CHICKEN CAGES BASED ON THE INTERNET OF THINGS (IoT). Smart Techno (Smart Technology, Informatics and Technopreneurship), 5(2), 10-16.

Darsani, N., Basuki, D. K., Amaluddin, F., Wijayanti, A., & Rochmah, A. (2023). DESIGN AND DESIGN OF AUTOMATIC FEEDING AND TEMPERATURE SETTING FOR OPTIMIZING THE CHICKEN BREEDING PROCESS USING ARDUINO BASED ON IOT (Internet of Things). Curtina, 4(1), 23-32.

Fahila, N. A. (2024). IMPLEMENTATION OF THE FUZZY MAMDANI METHOD IN AUTOMATION AND MONITORING SYSTEMS FOR BROILER CHICKENS BASED ON THE INTERNET OF THINGS (IOT) (Doctoral dissertation, ITN MALANG).

Fuadi, S., & Candra, O. (2020). Prototype of Automatic Plant Watering Device with Arduino-Based Humidity and Temperature Sensors. JTEIN: Indonesian Journal of Electrical Engineering, 1(1), 21-25.

Hadyanto, Try, and Muhammad Faishol Amrullah. "Temperature and Humidity Monitoring System in Broiler Chicken Cages Based on Internet of Things." Journal of Embedded Technology and Systems 3.2 (2022).

Hadyanto, T., & Amrullah, M. F. (2022). Temperature and Humidity Monitoring System in Broiler Chicken Cages Based on Internet of Things. Journal of Embedded Technology and Systems, 3(2).

Hadyanto, Try; AMRULLAH, Muhammad Faishol. Internet of Things Based Temperature and Humidity Monitoring System in Broiler Chicken Cages. Journal of Embedded Technology and Systems, 2022, 3.2.

Husamuddin, H., Prasetyo, D. B., & Rustamadji, H. C. (2020). Automation of the Frequently Ask Questions Service Based on Natural Language Processing on Telegram Bot. Telematics: Journal of Informatics and Information Technology, 17(2), 145-157.

Journal, R. T. (2015). Save electricity with electricity saving lamps. Energy and Electricity, 7(2), 103-107.

Kurniansyah, I. B., Ronilaya, F., & Hakim, M. F. (2020). Real Time Monitoring System from an Active Solar Photovoltaic Tracker Based on the Internet of Things. ELPOSYS: Journal of Electrical Systems, 7(3), 7-13.

Kurnianto, A., Subekti, E., & Nurjayanti, E. D. (2019). Analysis of the broiler chicken farming business with a core-plasma partnership pattern (case study of PT. Bilabong plasma farmers in Limpung District, Batang Regency). Mediagro, 14(2).

Kustija, J., & Sc, M. (2012). Sensor and Transducer Module. Sens Module. and Transducer.

Kusuma, A. D. (2018). Using Telegram Bots on Telegram Messenger with the Webhooks Method for the Infrastructure Lending System at UIN Maulana Malik Ibrahim Malang (Doctoral dissertation, Maulana Malik Ibrahim State Islamic University).

Limbong, T. (2021). Basic Web Programming.

Li, S., Xu, L. D., & Zhao, S. (2015). The internet of things: a survey. Information systems frontiers, 17, 243-259.

Ningrum, N. K., Kusuma, T. W., Mulyono, I. U. W., Susanto, A., & Kusumawati, Y. (2023). CHICKEN CAGE TEMPERATURE AND HUMIDITY MONITORING SYSTEM BASED ON THE INTERNET OF THINGS (IOT). Elkom: Journal of Electronics and Computers, 16(2), 278-285. [4]

Permata, E., & Lestari, I. (2020, November). Preventive Maintenance on Av05 Step-Down Transformer with 150kv Capacity at Pt. Krakatoa Electric Power. In Proceedings of the National FKIP Education Seminar (Vol. 3, No. 1, pp. 485-493).

Raihan, T. M. (2022). The water quality monitoring system uses Esp32 with Fuzzy Logic Sugeno based on Android (Bachelor's thesis, Faculty of Science and Technology, Syarif Hidayatullah State Islamic University, Jakarta).

Ratulangi, A. D., Sengkey, R., & Lumenta, A. S. (2015). Android Based Gate Controller. Journal of Electrical and Computer Engineering, 4(3), 18-27.

Roby, F., & Junadhi, J. (2019). Control system for light intensity, temperature and air humidity in a raspberry PI-based greenhouse. JTIS, 2(1).

Rose, K., Eldridge, S., & Chapin, L. (2015). The internet of things: An overview. The internet society (ISOC), 80(15), 1-53.

Saputro, B. (2017). Analysis of the Reliability of the Generator Set as an Emergency Power Supply If the Power Supply from PLN Suddenly Goes Out at Morodadi Poultry Shop Blitar. Qua Teknika Journal, 7(2), 17-25.

Satria, B. (2022). IoT Monitoring Air Temperature and Humidity with the ESP8266 MCU Node. sudo Journal of Informatics Engineering, 1(3), 136-144.

Downloads

Published

2024-12-05

How to Cite

Design And Design Of A Temperature And Humidity Monitoring System For Broiler Chicken Cages Based Internet Of Things (IOT). (2024). PERFECT: Journal of Smart Algorithms, 1(2), 57-62. https://doi.org/10.62671/perfect.v1i2.23

Issue

Vol. 1 No. 2 (2024): PERFECT: Journal of Smart Algorithms, Article Research July 2024

Section

Articles

License

Copyright (c) 2024 PERFECT: Journal of Smart Algorithms

Creative Commons License

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

How to Cite

Design And Design Of A Temperature And Humidity Monitoring System For Broiler Chicken Cages Based Internet Of Things (IOT). (2024). PERFECT: Journal of Smart Algorithms, 1(2), 57-62. https://doi.org/10.62671/perfect.v1i2.23