This study investigates the development and application of a temperature monitoring and automatic fan control system based on the Internet of Things (IoT). The system makes use of an ESP32 WiFi module, a DHT11 temperature sensor, a transistor for fan control, and IoT technologies. Its real-time fan speed change based on outside temperature is a benefit that improves user convenience, environmental comfort, and energy efficiency. The study's conclusions highlight the system's precise temperature measurement and trustworthy fan control algorithms. It also illustrates the system's superiority by contrasting it with other alternatives that are currently in use. The study's conclusions offer suggestions for future work, including potential improvements in security, interaction with other IoT devices, geographical sensing, adaptive fan speed management, and reliability. This IoT-based technology paves the way for greater investigation and development in the area of IoT applications while also holding promise for a more user-friendly and energy-efficient future.
Automatic Fan Control, Cloud-Based Application, Energy Efficiency, Environmental Comfort, ESP32, IoT-Based Temperature Monitoring, Real-Time Monitoring, Temperature Monitoring, Variable Temperature Threshold, Wireless Communication.
IRE Journals:
Jo Christopher M. Resquites , Matthew Alexie Parrocho , Noel Vinegas , Dr. Vinyl H. Oquiño
"IoT-Based Temperature Monitoring and Automatic Fan Control Using ESP32" Iconic Research And Engineering Journals Volume 7 Issue 5 2023 Page 35-44
IEEE:
Jo Christopher M. Resquites , Matthew Alexie Parrocho , Noel Vinegas , Dr. Vinyl H. Oquiño
"IoT-Based Temperature Monitoring and Automatic Fan Control Using ESP32" Iconic Research And Engineering Journals, 7(5)