In the fields of major engineering and natural disaster prevention and control, millimeter-level displacement changes often hide enormous safety risks.
The GNSS Monitoring Station FT-WY1 is a millimeter-level displacement monitoring product implemented using differential RTK technology, which can be widely applied in engineering fields such as dam safety monitoring, bridge health detection, and landslide early warning.
The FT-WY1 supports 11-frequency signals from four systems: BEIDOU, GPS, GLONASS, and GALILEO, achieving multi-system and multi-frequency integrated high-precision positioning.
The product integrates tilt and acceleration modules to assist in displacement data mutation detection and drive adaptive adjustment of observation working modes.
The device is equipped with a high-performance industrial-grade 32-bit ARM core processor with powerful local computing capabilities, and a built-in embedded web server for remote two-way interaction.
The FT-WY1 adopts a low-power design with a rated power consumption of less than 1.2W, making it more suitable for continuous field operation.
The device supports a power supply method of 30W solar panel combined with a 20AH battery, ensuring long-term operation even in environments without mains power.
The system supports data communication and transmission methods such as 4G, wireless bridge, WiFi, and Ethernet to meet data transmission needs in different scenarios.
The FT-WY1 system is suitable for various engineering safety monitoring scenarios, including real-time monitoring of open-pit mine slope displacement in mining scenarios.
In highway/railway subgrade scenarios, the system can real-time monitor subgrade settlement and slope displacement.
For water conservancy reservoir area scenarios, the system can focus on monitoring the displacement of reservoir bank slopes and dams to prevent secondary disasters caused by dam collapse, landslides, etc.
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