Geotechnic
Monitor, anticipate, react.
Optimize your geotechnical projects and anticipate risks remotely.
The challenges of the geotechnical sector
Ground movements, subsidence, landslides, or cracking often result from the complexity of soils and the interaction between various parameters: geological structure, moisture, stability, or applied loads. These phenomena can compromise the safety of projects and the durability of infrastructure.
Soil movements and geological instabilities pose significant geotechnical challenges, with risks of subsidence, landslides, and cracks.
Geotechnical monitoring
a daily challenge
Geotechnical monitoring is essential for analyzing soil stability and tracking the impact of projects on their environment.
Whether it's excavation, deep foundations, or slope reinforcement, continuous monitoring ensures informed and secure decisions.
Thanks to connected sensors, you can: continuously monitor soil movements, measure deformations and settlement, anticipate instability risks, and ensure the safety of teams and structures.
Adopt innovative solutions to monitor your geotechnical projects and ensure the durability, safety, and performance of your infrastructure.
Continuous
and Connected Monitoring with FEELBAT
Our connected sensors, such as the DELTA XP for measuring groundwater level variations and the DELTA R for monitoring inclination movements, continuously collect essential data and transmit it in real time. This approach significantly reduces the need for manual inspections, while increasing the precision and efficiency of monitoring.
Additionally, our alert system immediately notifies when a critical threshold is exceeded, ensuring the safety of workers, equipment, and the monitored infrastructure.
By offering real-time monitoring, our sensors not only optimize safety but also infrastructure maintenance, allowing for risk anticipation and reducing on-site interventions.
Risk reduction
and cost optimisation
Our connected sensors make it easier to monitor many hard-to-reach areas.
Thanks to their integration with our platform, data reading and management become simpler and more cost-effective.
This centralised approach helps to reduce risks to personnel and equipment, while limiting manual interventions in potentially hazardous areas.
Thus, our system ensures enhanced safety for teams while optimizing resource usage.
It also provides increased responsiveness by quickly detecting any abnormal changes in the monitored structures.
An intuitive monitoring
for optimal monitoring
By integrating our connected sensors, we offer an advanced monitoring solution that combines continuous tracking with a simple and accessible user interface. This technology allows for easy monitoring of structural changes and quick detection of any anomalies.
Our system also offers the ability to set customised alert thresholds based on the specific needs of each site. When a threshold is crossed, an instant notification is sent to the relevant teams, facilitating a quick and effective response.
This approach enhances safety while reducing the risks associated with structural instabilities. It also optimises the management of interventions, thereby limiting costs and the exposure of personnel to hazardous environments.
Our solutions
A web & mobile application
The FEELBAT application is the only mobile app that brings together all the tools in a single, easy-to-use solution.
It gives you the opportunity to install your crack or tilt sensors, configure them, and monitor your structures in real time whether you are remote or not.
The best part? Receive alerts if the threshold is exceeded and edit reports in just a few clicks!
Need more information?
Contact us to learn more!
Use case
As part of monitoring structural instabilities of soils and geotechnical works, it is essential to instrument high-risk areas to detect the evolution of cracks and potential deformations.
This project aims to monitor several critical areas to ensure the stability of the land and the safety of the associated infrastructures.