How Climate Change Monitoring System and Soil Contours to Increase Agricultural Efficiency Work.
(Image: Flow Chart)
Climate Change Monitoring System and Soil Contours to Increase Agricultural Efficiency Works in the following way:
- The sensor works by reading five variables, namely temperature, humidity, ground shifts, rainfall, and fire
- If a fire is detected, the buzzer will turn on with a 2 tone sound.
- If there is a shift in the ground, the buzzer will light up with a 1 tone sound
- Displays sensor data on 20x4 LCD
- Data from sensors is sent via the Lora network to a second node
- The second node receives data from the first node
- Data from the sensor is displayed on the second node's Oled LCD
- The second node connects to WiFi
- Data is sent to Firebase using the internet network and real-time database features
- The application receives data from Firebase
- Data is displayed on a smartphone application for real-time monitoring
With a monitoring system, coffee farmers can determine whether they will continue fertilizing/planting coffee in the following month, based on the influence of rainfall and temperature. Apart from that, by monitoring temperature and humidity, farmers can know when to water coffee fields.
The following is the IoT Architecture of Climate Change Monitoring System and Soil Contours to Increase Agricultural Efficiency:
- Data from the sensor is processed by node 1 and then displayed on the LCD.
- Data is then sent via the Lora peer-to-peer network with the 915Mhz band to node 2.
- Node 2 receives sensor data from node 1, and then the data is displayed on the LCD and sent to the internet/wifi.
- The data is then connected to Firebase.
- The application receives data from Firebase and displays the results of the sensor reading data.
This architecture allows for the collection and analysis of data from sensors in remote locations, which can be used to monitor climate change and soil conditions. The data can be used to improve agricultural efficiency and sustainability.
(Image: Forest Fire)
Forest fires are a common occurrence during long dry seasons, and coffee fields are particularly vulnerable. This tool is equipped with a fire detection system to help protect coffee fields from sudden fires. The system uses a variety of sensors to detect sparks and increased temperature, and it can send an alert to authorities if a fire is detected. This can help to reduce the damage caused by forest fires and protect coffee farmers' livelihoods.
(Image: Landslide)
The soft soil contours in the mountains can pose a threat to coffee plantations. This innovation will detect soil shifts and, if the soil shifts, the warning system will sound a buzzer. This will help to protect coffee plantations from damage and loss of production.
The following are three supporting elements for green tech in this innovation:
- Use environmentally friendly materials (PLA+) that can be recycled using a plastic shredder.
- Intelligent monitoring system, sensors, and data are sent every 10-20 seconds, to save battery.
- Power source from solar panels (Supports renewable energy)
The following is a summary of the features of the Climate Change Monitoring System and Soil Contours to Increase Agricultural Efficiency:
- Temperature, Humidity, Rainfall, Land Shift and Fire Monitoring System
- Fire and Landslide Protection Systems
- Can be placed in the forest (Without Internet)
- Intelligent Monitoring System
- A standalone power source (Solar Panel)