To address these challenges, this project introduces a greenhouse monitoring and control system. The system is designed and implemented using various sensors for comprehensive environmental monitoring and control within the greenhouse. It is powered by an Atmega328 microcontroller and includes a temperature sensor, light sensor, soil moisture sensor, Light Dependent Resistor (LDR) sensor, LCD display module, 12V DC fan, bulb, and pump.
The system functions as follows: the temperature sensor monitors temperature levels; if the temperature rises too high, the DC fan is activated, and if it falls too low, the fan is deactivated. The soil moisture sensor detects the water level in the soil; when the moisture level drops, the pump is activated to irrigate the soil. The LDR sensor detects the absence of light and turns on the bulb. This automated system simplifies the process of monitoring and controlling the greenhouse environment, thereby enhancing productivity and efficiency.
The IoT-based Medi-WebCPD device revolutionizes the healthcare industry by leveraging Internet of Things (IoT) technology to enable seamless communication between patients and doctors. This innovative device eliminates the need for physical visits or phone calls, providing instant and secure communi...
Read more>>This project entitled ''IOT BASED FOOD GRAIN MONITORING''. In this project, a NodeMCU microcontroller is integrated with multiple sensors, including a gas sensor, DHT sensor, and two load cell sensors, as well as control for air conditioning and heating systems. The NodeMCU monitors temperature a...
Read more>>This report is a product of project entitled "Automatic photovoltaic solar panel cleaning system" The aim of this project is to design an innovative cleaning solution for photovoltaic solar panels in solar power plants. The accumulation of dust and debris on solar cells significantly reduces the eff...
Read more>>Drivers who are drowsy or tired present a serious danger to other drivers on the road because they are less vigilant and are more likely to fall asleep at the wheel. The lack of an effective real-time system that can consistently identify warning signs of driver fatigue and quickly issue alarms to p...
Read more>>Traditional gate opening methods involve manual operation, often requiring users to exit their vehicles, which can be inconvenient and time-consuming. These methods are also vulnerable to security threats and lack automation capabilities. The "Smart Gate Automatic Operated based on IoT" project add...
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