The health and productivity of chickens in a coop heavily depend on optimal environmental conditions, such as temperature, humidity, and air quality. The ideal temperature for laying hen coops generally ranges between 18-28℃. However, manual monitoring of coop conditions is often ineffective and requires significant resources. Therefore, this research develops a Chicken Coop Monitoring system based on the Internet of Things (IoT) to improve the efficiency of environmental supervision and maintenance within the coop. This system is designed using an ESP32 microcontroller connected to temperature, humidity, and air quality sensors, combined with an internet connection to transmit real-time data to a database storage. The collected data can be accessed via a monitoring dashboard that visually displays information on the coop's environmental conditions, including whether the temperature is within the optimal range. Testing results show that this system is capable of accurately monitoring environmental parameters, detecting non-ideal conditions, and assisting in decision-making related to coop environment regulation. By implementing this technology, chicken health and productivity can be significantly improved through more efficient and effective coop environment management.
                        
                        
                        
                        
                            
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