The farmland monitoring system mainly includes four parts: environmental parameter monitoring, crop growth monitoring, disease and pest monitoring, and soil quality monitoring. The system adopts advanced sensor technology, wireless communication technology and data analysis technology to realize real-time monitoring and data analysis of the farmland environment, and provide scientific decision-making support for agricultural production.
The monitoring of environmental parameters mainly includes the monitoring of temperature, humidity, light, wind speed and other parameters. This part uses high-precision sensors and wireless communication technology to realize real-time monitoring and data transmission of the farmland environment. At the same time, this part also has data storage and analysis functions to provide scientific basis for agricultural production.
Crop growth monitoring mainly includes the monitoring of crop growth, growth rate, growth cycle and other parameters. This part uses advanced image recognition technology and data analysis technology to realize real-time monitoring and data analysis of crop growth. At the same time, this part also has data storage and analysis functions to provide scientific basis for agricultural production.
The monitoring of pests and diseases mainly includes the monitoring of the occurrence, type, quantity and other parameters of pests and diseases. This part uses advanced image recognition technology and data analysis technology to realize real-time monitoring and data analysis of the occurrence of pests and diseases. At the same time, this part also has data storage and analysis functions to provide scientific basis for agricultural production.
Soil quality monitoring mainly includes the monitoring of soil pH value, nutrient content and other parameters. This part uses advanced sensor technology and data analysis technology to achieve real-time monitoring and data analysis of soil quality. At the same time, this part also has data storage and analysis functions to provide scientific basis for agricultural production.
The architecture of the farmland monitoring system includes four layers: sensor layer, data transmission layer, data processing layer and application layer. The sensor layer is responsible for collecting data on farmland environmental parameters, crop growth, occurrence of pests and diseases, and soil qualityThe data transfer layer is responsible for transferring the collected data to the data processing layerThe data processing layer is responsible for storing and analyzing the collected dataThe application layer is responsible for displaying the analysis results to users in a graphical interface, so that users can make decisions.
System Benefits. 1.Real-time monitoring: It can monitor farmland environmental parameters, crop growth, pests and diseases and soil quality in real time, providing a scientific basis for agricultural production.
2.Data analysis: It can store and analyze the collected data to provide scientific decision-making support for agricultural production.
3.Graphical interface: The analysis results can be displayed to users in a graphical interface, which is convenient for users to make decisions.
4.Strong scalability: It can be expanded and upgraded according to user needs to meet the needs of different users.