Tubular Soil Moisture Monitor: Supporting Long-Term Field Monitoring with Real-Time Data Transmission

The Tubular Soil Moisture Monitor is an automated soil moisture monitoring system that integrates soil temperature and humidity collection, transmission, storage, and management. Its key components include meteorological sensors such as soil moisture sensors, multi-channel data loggers, and soil temperature sensors, as well as a supporting software platform, enabling long-term and uninterrupted monitoring of soil moisture. In terms of sensor installation and layout, the placement of soil moisture sensors can be flexibly adjusted according to specific project requirements, and sensors can also be installed at different depths to obtain moisture conditions of the soil profile. Moreover, the system has excellent expandability: by adding corresponding sensors based on actual monitoring needs, it can further monitor various types of information such as soil temperature, soil electrical conductivity, soil pH value, groundwater level, groundwater quality, as well as air temperature, air humidity, light intensity, wind speed and direction, and rainfall, meeting the needs of subsequent upgrades to the system's functions.

The Tubular Soil Moisture Monitor features real-time collection and transmission functions. It can collect soil moisture information from various remote measurement points in real time, and after collection, send the data to the corresponding monitoring platform via wireless transmission, ensuring the timeliness of data transmission. The system uses high-precision sensors for data collection, and the entire measurement and reporting process requires no manual intervention, effectively avoiding interference from human factors on the measurement results and ensuring high accuracy of the results. This device supports unattended operation, is powered by a solar charging panel, and is connected to a wireless transmission module, making it suitable for long-term use in field environments. In addition, based on its existing functions, the system can be further developed to expand functions such as drought prediction and forecasting, water-saving irrigation, and optimal water distribution in irrigation areas, so as to give full play to the value of soil moisture data. At the same time, it can also be configured with a multi-parameter meteorological monitoring system according to actual needs to enhance the system's comprehensive monitoring capabilities.