IoT Based Bio Shed for Agricultural Purpose

The advent of the Internet of Things (IoT) has paved the way for innovative solutions in agriculture, significantly improving crop management and resource utilization. This project introduces an IoT-Based Agricultural Automation System designed to enhance agricultural practices by efficiently utilizing resources and responding to changing weather conditions. The system integrates key components, including Arduino microcontroller, soil moisture sensor, raindrop sensor, DHT11 sensor, a motor driver, a motor for shed control, a pump for irrigation management, an LCD display, a GSM module for remote communication, and a buzzer for alerts.

The system operates by continuously monitoring essential agricultural parameters. Soil moisture sensor assess soil moisture levels, aiding in irrigation scheduling. Raindrop sensor detect rainfall, automatically controlling irrigation systems to prevent overwatering during wet weather conditions. Temperature sensors provide temperature data for effective climate control within sheds or greenhouses. The system employs Arduino-based control logic to operate motors, opening or closing sheds to protect crops from adverse weather conditions, such as rain or excessive heat. Alerts are delivered through a buzzer and displayed on an LCD screen for on-site monitoring. Additionally, the system offers remote communication capabilities through a GSM module, enabling farmers to receive updates and control the system remotely. This IoT-based solution not only optimizes resource utilization but also enhances crop yield and reduces the environmental impact of agriculture, setting new standards for efficient and weather-responsive farming practices. Further development and field testing are recommended to validate its effectiveness in diverse agricultural contexts.

Keywords: Arduino, Soil Moisture Sensor, Shed for Agriculture, Raindrop Sensor, DHT11