Do you have a technical challenge? Get in touch with us
Do you have a technical challenge? Get in touch with us
enables real-time tracking of the condition and behavior of buildings, bridges, tunnels, and other infrastructure. By using advanced sensors and data acquisition systems, it supports risk mitigation, safety assurance, and proactive maintenance throughout the structure's life cycle.
Structural monitoring - How it works?
Sensors are installed on structural elements to monitor variables such as strain, displacement, vibration, temperature, or inclination. The system collects data continuously or periodically, transmitting it to a central platform for real-time evaluation and historical analysis. SHM is tailored to the structure type and operational requirements.
Appropriate sensors are placed on critical components such as beams, columns, foundations, or joints.
Measurements are collected in real-time or at programmed intervals and stored securely.
Data is transmitted to a remote server or control center, accessible via online dashboards.
Thresholds, trends, and anomalies are detected and reported to support structural assessment and decision-making.
Process steps
Each system is adapted to the project’s phase — from construction to long-term operation — ensuring safety and performance verification.
Define structural risks
Determine what to measure and where, based on structural vulnerabilities and project requirements.
Tailored configuration
Select sensor types, layout, data format, and transmission method.
Accurate measurement
Install sensors and calibrate them to ensure high precision and reliability.
Ongoing insight
Track structural behavior over time and generate technical reports with findings and alerts.
Benefits
Detects deformations, fatigue, or instability before visible signs appear.
Supports long-term asset management and reduces unexpected repair costs.
Enhances safety of users and workers through continuous control.
Provides reliable input for engineering analysis and maintenance planning.
Gdzie monitoring konstrukcji ma zastosowanie
No — it can also be used for buildings, temporary structures, or retaining walls where stability is critical.
Common types include strain gauges, accelerometers, tiltmeters, displacement sensors, and temperature probes.
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ABOUT THE COMPANY
Geotechnical investigation
We operate in Europe as:
DK
DMT Engineers A/S
DMT Engineers A/S
Skomagervej 13C
7100 Vejle
CVR-np. 12476779
DE
DMT Ingenieure GmbH
DMT Ingenieure GmbH
Zum Audorfer See 9
D-24782 Büdelsdorf
Registergericht: Amtsgericht Kiel HRB 12196 KI
Geschäftsführer: Lars Gøttrup Christensen
USt-IdNr.: DE134866110
Sitz der Gesellschaft: Zum Audorfer See 9, D-24782 Büdelsdorf
All rights reserved. DMT 2025.
