SmartHatch: An Internet of Things–Based Temperature and Humidity Monitoring System for Poultry Egg Incubation and Hatchability

Digital Object Identifier (DOI)

10.1109/ICoICT58202.2023.10262810

Authors

Ronaldo C. Maaño

College of Engineering, Manuel S. Enverga University Foundation, Lucena City, Philippines

Roselyn A. Maaño

College of Computing and Multimedia, Studies Manuel S. Enverga University Foundation, Lucena City, Philippines

Pedro Jose De Castro

Pedro Jose De Castro College of Arts and Sciences, Manuel S. Enverga University Foundation, Lucena City, Philippines

Enrico P. Chavez

College of Computer Studies, Technological Institute of the Philippines, Manila, Philippines

Susana C. De Castro

College of Computing and Multimedia, Studies Manuel S. Enverga University Foundation, Lucena City, Philippines

Cielito D. Maligalig

College of Engineering, Manuel S. Enverga University Foundation, Lucena City, Philippines

Abstract

Poultry farming involves monitoring, regulating, and sustaining chick production. Poultry farming yields chicken eggs, which can be increased by combining traditional methods with technology. Monitoring, regulating, and sustaining chick production are all part of the poultry egg incubation process. Temperature-humidity monitoring during poultry egg incubation requires a long-term energy source for optimum performance and operation. This study involved designing and developing an IoT-based poultry egg incubator temperature and humidity monitoring system. The prototype comprises Arduino MKR 1000 microcontroller and DHT 11 temperature-humidity sensor. The Arduino IoT Cloud serves as a cloud-based platform for managing and monitoring the real-time status of temperature and humidity to prevent hatching failure. The success rate of fifty tilted eggs was evaluated, and the result shows that the hatchability rate is 95.24%.