Soil moisture content refers to the water content status of the soil, which directly affects the growth of crops, the stability of the ecological environment, and water resource management. The traditional methods of soil moisture monitoring mainly include manual sampling measurement and fixed-point instrument measurement. For manual sampling, the staff need to collect soil samples on-site and bring them back to the laboratory for analysis. The process is cumbersome and has poor timeliness. Although fixed-point instrument measurement is more efficient than manual sampling, it is limited by cabling, resulting in a limited monitoring range, and the later maintenance cost is high.
With the development of science and technology, Automatic Soil Moisture Monitors have emerged. This monitoring station collects data such as soil humidity and temperature in real time through sensors, and with the help of wireless communication technologies such as 4G and LoRa, it transmits the data to the cloud platform. Compared with traditional monitoring methods, there is no need to lay a large number of cables, which reduces the construction cost and time. Moreover, it can be flexibly deployed in different terrains and regions, expanding the monitoring range. The data transmission is not limited by distance, enabling remote real-time monitoring. The staff can obtain the monitoring data at any time through terminals such as mobile phones and computers. It has an automatic alarm function. When the soil moisture data exceeds the preset threshold, it will promptly send a warning message to the management personnel so that they can take measures quickly.
Relying on the advantages of wireless technology, Automatic Soil Moisture Monitors provide accurate data support for agricultural production, helping farmers to irrigate scientifically, fertilize rationally, improve the yield and quality of crops, and promote the development of modern agriculture towards intelligence and precision.
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