Intelligent Soil Moisture Monitoring System for High-standard Agricultural Land Introduction

Soil is the cornerstone of crop growth, and the scientific regulation of its water is not only the key to water-saving irrigation, but also to achieve the scientific use of water in agriculture and irrigation automation of the foundation. Reasonable regulation of soil moisture not only ensures the healthy growth of crops, but also helps to improve irrigation efficiency, laying a solid foundation for the sustainable development of agriculture.

Soil moisture monitoring occupies a crucial position in modern agricultural production. The high-standard farmland soil moisture intelligent monitoring system is designed for the collection of farmland soil parameters.

The system mainly relies on an integrated intelligent sensing device, which is developed based on the time-domain reflectance (TDR) method. It has multiple functions of monitoring soil moisture, conductivity and temperature. By working with a multi-dimensional software monitoring and analysis platform, data collection stations, solar power supply systems, intelligent telemetry devices and digital transmission modules, the system standardises the monitoring and management of farmland data. This comprehensive solution greatly reduces the work intensity of operators, improves the efficiency of data collection and processing, and provides strong support for the fine management of modern agricultural production.

This system not only reduces the work intensity of operators, but also provides a reliable IoT data communication environment. Its narrow-band low-power consumption ensures stable remote reduction efficiency for data collection and extremely low data BER. In case of disconnection, the system can automatically reconnect, providing strong support for stable and efficient agricultural production.

The system equipment supports remote access to multiple monitoring platforms, ensuring the accuracy and analysability of data broadcasting. Through the Randy remote supervision platform, the system can be docked with other multiple fields to provide big data support. The terminal equipment also has functions such as problem tracing, which further enhances the practicality and convenience of the system. This series of features makes the system have a wide range of application prospects in modern agricultural production, providing a strong guarantee for the intelligence and efficiency of agricultural production.

Upon completion of the project, the system will be able to realise man less manned operation and intensive management of the monitoring stations in the area, adopting a one-map model, significantly reducing financial expenditure while bringing about high real-world benefits.

The Agricultural Meteorological Moisture Monitoring System provides scientific and accurate data support for crop irrigation through the establishment of meteorological moisture stations for real-time monitoring of soil moisture in agricultural fields. The system not only improves irrigation efficiency and reduces the waste of water resources, but also provides an important decision-making basis for agricultural production. At the same time, the system also monitors the on-site meteorological environment, realising the digital management of farmland and further promoting the construction of intelligent agricultural information. The application of this technology has injected new vitality into the development of modern agriculture and laid a solid foundation for achieving sustainable agricultural development. Soil is the cornerstone to support crop growth, and the scientific regulation of its moisture is not only the key to water-saving irrigation, but also the foundation for the realisation of scientific water use and irrigation automation in agriculture. Reasonable regulation of soil moisture conditions can not only ensure the healthy growth of crops, but also help to improve irrigation efficiency, laying a solid foundation for the sustainable development of agriculture.

Soil moisture monitoring occupies a crucial position in modern agricultural production. The high-standard farmland soil moisture intelligent monitoring system is designed for the collection of farmland soil parameters.

The system mainly relies on an integrated intelligent sensing device, which is developed based on the time-domain reflectance (TDR) method. It has multiple functions of monitoring soil moisture, conductivity and temperature. By working with a multi-dimensional software monitoring and analysis platform, data collection stations, solar power supply systems, intelligent telemetry devices and digital transmission modules, the system standardises the monitoring and management of farmland data. This comprehensive solution greatly reduces the work intensity of operators, improves the efficiency of data collection and processing, and provides strong support for the fine management of modern agricultural production.

This system not only reduces the work intensity of operators, but also provides a reliable IoT data communication environment. Its narrow-band low-power consumption ensures stable remote reduction efficiency for data collection and extremely low data BER. In case of disconnection, the system can automatically reconnect, providing strong support for stable and efficient agricultural production.

The system equipment supports remote access to multiple monitoring platforms, ensuring the accuracy and analysability of data broadcasting. Through the Randy remote supervision platform, the system can be docked with other multiple fields to provide big data support. The terminal equipment also has functions such as problem tracing, which further enhances the practicality and convenience of the system. This series of features makes the system have a wide range of application prospects in modern agricultural production, providing a strong guarantee for the intelligence and efficiency of agricultural production.