This study investigates a cutting-edge aeroponic farming system that use an ESP32 microcontroller to track and regulate critical environmental factors that are critical to plant health. Sensors like the DHT11 for temperature and humidity, the BH1750 for light intensity, and a pH sensor for the quality of the nutrient solution are all included into the system. Actuators control airflow, temperature, and nutrient delivery. These include a DC fan, Peltier module, and mist maker. For remote control, warnings, and real-time monitoring, data from these sensors is sent to a Blynk smartphone app. According to preliminary findings, plant growth is enhanced, yields are increased, and resource consumption is decreased. In densely inhabited areas, the system provides a scalable solution for sustainable food production, showcasing the transformative potential of IoT in urban farming.

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Real-Time Temperature Monitoring and Nutrient Delivery for Optimal Yield Using Aeroponic Systems

  • J. S. Leena Jasmine,
  • C. Haaregesh,
  • R. Sanjay Pandi,
  • P. Sujin

摘要

This study investigates a cutting-edge aeroponic farming system that use an ESP32 microcontroller to track and regulate critical environmental factors that are critical to plant health. Sensors like the DHT11 for temperature and humidity, the BH1750 for light intensity, and a pH sensor for the quality of the nutrient solution are all included into the system. Actuators control airflow, temperature, and nutrient delivery. These include a DC fan, Peltier module, and mist maker. For remote control, warnings, and real-time monitoring, data from these sensors is sent to a Blynk smartphone app. According to preliminary findings, plant growth is enhanced, yields are increased, and resource consumption is decreased. In densely inhabited areas, the system provides a scalable solution for sustainable food production, showcasing the transformative potential of IoT in urban farming.