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Deformation monitoring for slopes and walls
Detect deformation and ensure ground stability over time.
Why monitor retaining walls and embankments?
These structures are crucial for stabilizing slopes, supporting excavations, and preventing landslides.
They are often exposed to dynamic loads, hydrostatic pressure, soil creep, and seasonal variations. Monitoring displacement and deformation allows engineers to anticipate failure mechanisms and plan timely interventions.
How structural monitoring system works
From sensor installation to data analysis, Move Solutions delivers a fully wireless structural health monitoring solution.
Deploy wireless devices on site. Sensors connect automatically via LoRaWAN.
Data flows to the cloud and is managed in MyMove, remotely and in real time.
Turn raw data into engineering insights with advanced built-in Tools for smart structural analysis.
Generate customized PDF reports automatically—ready to share with contractors, stakeholders, or authorities.
Why choose Move Solutions for retaining wall and embankment monitoring
Gain full visibility into displacement, rotation, and slope behavior with scalable sensor chains and remote diagnostics. Move Solutions supports early warning detection and long-term performance tracking across geotechnical structures.
Key points of structural monitoring
Recommended sensors
Move Solutions offers high-precision, low-power sensors for structural, geotechnical, and environmental monitoring.
The all-in-one
structural health monitoring platform
MyMove is the cloud platform that powers your structural health monitoring system.
It collects data from wireless and third-party sensors, organizes it by asset, and delivers engineering-grade insights—anytime, anywhere.
From sensor data to structural insight
Analyze time-series data, compare sensors, and uncover structural trends. MyMove turns raw measurements into insight and delivers shareable PDF reports automatically.
Create custom charts and profiles
Correlate multiples historical trends
Custom PDF templates with branding and layout
Scheduled reports for clients and authorities
Remote configuration and alarm control
MyMove enables full remote management of your structural monitoring system. Directly from the platform, engineers can configure sampling intervals, communication frequency, firmware updates, and threshold-based alarms based on real-time or derived parameters.
Sensor-level configuration of acquisition mode, frequency, triggers, and more
Definition of multi-parameter alarms and threshold conditions
Continuous diagnostics on signal strength and connectivity
Smart tools for structural health monitoring
MyMove includes built-in Advanced Tools specifically designed to simplify and optimize the monitoring of complex infrastructure applications.
No external software. No post-processing. Just clear, actionable insights.
Tiltmeter Chains Tool – compute spatial displacement and deformation trendsure frequency, triggers, and more
Modal Analysis Tool – identify modal frequencies, damping, and vibration modes
Rail Monitoring Tool – track cant, twist, and vertical alignment over time
Correlate long-term behavior
Full control of raw sensor data
Custom PDF reports for any stakeholder
Monitor health and connectivity
Manage devices remotely
Set multi-parameter alarms
Modal Analysis Tool
Tiltmeter Chains Tool
Bulk sensor setup & calibration
Book a live demo with our team
Discover how our platform collects data, manages your sensors remotely, and delivers structural insights—live, in one call.
Worldwide success stories
Discover how our monitoring systems are used worldwide to solve real engineering challenges across bridges, tunnels, railways, and more.
Historical Building Monitoring
Structural Health Monitoring of St Mark's Basilica in Venice
In order to protect St. Mark’s Basilica in Venice from high water, it was decided to build transparent glass sheets around it. Since the laying of the glass included excavations to be carried out very close to the Basilica, Digital Rilievi was chosen to monitor the two outermost columns of the façade and the two Pillars of Acre (Pilastri Acritani) placed on the right side of the Basilica, using Move Solutions sensors.
Venice, Italy
Infrastructure Monitoring
Bell Tower Monitoring Project in Lucca
The bell tower of the Basilica Church San Michele in Foro, located in the heart of Lucca, Italy, is an iconic historical structure renowned for its architectural significance. To ensure its ongoing preservation and safety, a consortium of experts and institutions joined forces to embark on a comprehensive monitoring project.
Lucca, Italy
Bridge Monitoring
Dynamic Monitoring of the Vespucci Bridge in Florence
The Vespucci bridge is one of the central bridges of Florence that allows you to join the San Frediano district to the rest of the city, separated by the Arno river. It is a structure in c.a.p. arch divided into 3 spans, with an overall length of 162m. Designed by Riccardo Morandi and built between 1954-1957, suffers from deterioration of the concrete, like many works of the time. This deterioration has affected the two piers even more markedly, especially the one on the left (San Frediano side) due to the erosion of the riverbed by the currents of the Arno river. This structural deterioration required continuous monitoring and safety works.
Florence, Italy
Ready to monitor your retaining structure?
Talk to our engineers, schedule a demo, or request a proposal.
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