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Discover a new generation of field-ready devices designed to unlock remote monitoring applications that were once out of reach.
Sign up for moreThe Loadsensing G7 platform introduces a new standard in efficiency, flexibility, and intelligence that enables new applications in remote monitoring.
Devices can now analyze more data locally, reduce transmissions, and optimize battery usage. This enables more autonomous monitoring and opens up new use cases in the field.
G7 adapts to specific monitoring requirements through multiple modes, including standard acquisition, trigger-based monitoring, and event detection—now default in the tiltmeter family.
The device reacts automatically to changes in inclination, acceleration, and angular velocity. When thresholds are exceeded, G7 can trigger data collection or adjust the reporting rate of the primary sensor—enabling more responsive, efficient monitoring.
A built-in low-power accelerometer enables the device to detect ground movement or seismic activity, unlocking event-driven applications without requiring external sensors.
Built-in temperature and humidity sensors enhance system reliability. Temperature data supports correlation with ambient conditions for accurate analysis, while humidity readings help detect potential sealing failures or water ingress — enabling preventive action before issues arise.
G7 features built-in sensors that enhance reliability and expand monitoring applications—without requiring additional hardware
Bluetooth connectivity allows fast, wireless configuration via the Worldsensing App.
A USB-C interface ensures universal compatibility, simplifying data transfer, and field diagnostics.
Support for high-capacity D-size batteries enables up to 25 years of operation, depending on use and configuration. This dramatically reduces maintenance needs and lowers the environmental impact of long-term monitoring in remote or hard-to-reach locations.
The G7 product family offers multiple operational modes, allowing you to tailor data collection to your project needs. These modes help you optimize workflows, extend battery life, and reduce the number of devices required in the field.
Readings at regular intervals
Sensors record readings at regular intervals based on your configured reporting rate—ideal for long-term structural or environmental monitoring.
Activated by movement or tilt
Readings are taken only when specific conditions are met—after vibration events like train passages or when tilt exceeds set thresholds. This reduces unnecessary data and focuses on key changes.
Built for early warning
Tilt is monitored at 3.9 Hz and evaluated against thresholds. If exceeded, the device sends an alert in under 2 seconds and changes reporting period to capture event data. Monitoring resets once values stabilize. Enabled by default in all G7 tiltmeters.
Loadsensing G7 opens the door to new applications in remote monitoring that minimizes data use, extends battery life, reduces maintenance and and supports denser networks for improved scalability.
Track geometry issues such as twist or cant can compromise safety and lead to derailments. With G7 tiltmeters, trigger-mode monitoring enables data collection after the first train passes and before the next one — reducing power consumption and data load while maintaining continuous oversight.
How it Works:
Embankment shifts can signal early signs of failure. When continuous, extensive remote monitoring is put in place, it can strain batteries and networks. Loadsensing G7 enables Trigger-mode monitoring to activate readings only when movement is detected.
How it works:
Earthquakes and blasting can affect the health of structures such as bridges and buildings, as well as trigger slope movements or general ground displacement. When continuous, large-scale remote monitoring is implemented, it can strain batteries and communication networks. Loadsensing G7 enables trigger-mode monitoring, activating readings when a certain acceleration threshold is exceeded.
How it works:
