ShakeLog is a sensor and software system designed to record vibrations affecting various structures such as buildings, bridges, dams, or other infrastructures—especially in the event of earthquakes or environmental impacts. It enables accurate real-time monitoring and analysis of structural behavior.
The system operates by installing sensors at optimal locations within the structure, using either wired or wireless communication to transmit data to a central analysis system. The data is then processed and visualized through intelligent software.
What is ShakeLog and What are Its Benefits?
In an era where the safety of infrastructure is of utmost importance, technologies capable of real-time monitoring, analysis, and structural health assessment have become invaluable tools — and one such innovation is ShakeLog by Sensequake.
- 24/7 Real-Time Monitoring
The system continuously tracks and records the behavior of a structure around the clock, ensuring no interruptions in data collection.
- AI-Powered Cloud Analysis
Utilizes cloud-based artificial intelligence to monitor structural stiffness properties, enabling smart and accurate assessment of structural integrity changes.
- Automated Damage Detection
ShakeLog incorporates Sensequake’s proprietary methodology to automatically detect structural damage — significantly reducing inspection time and costs while enhancing detection efficiency.
- Automated Report Generation
Saves time on documentation and instantly delivers professional engineering reports for effective decision-making.
Integrated Structural Monitoring System
| Feature | Description (English) |
|---|
| High-Sensitivity Vibration Sensors | Utilizes triaxial accelerometers and velocimeters with a wide dynamic range and low noise for precise vibration measurement. |
| Web-Based Control and Analysis | Users can manage the system and analyze data through an online platform, with regular modal analysis powered by AI to monitor changes in structural stiffness parameters. |
| Rapid and Accurate Seismic Damage Assessment | Sensor placement is optimized using Sensequake's proprietary methodology, enhancing the speed and accuracy of structural damage evaluation. |
| Sensor Voting Mechanism for Alerts | Features a collaborative decision-making mechanism (voting system) between sensors to reduce false alarms. Includes local battery and data storage, ensuring continued operation during power outages or connectivity loss. |
- Automatic and Continuous Structural Stiffness Monitoring
The system enables consistent surveillance and tracking of the structure’s stiffness baseline properties, allowing for precise and rapid detection and localization of damage. — This level of capability is unprecedented in conventional Structural Health Monitoring (SHM) systems.
- Automatic and Continuous Structural Stiffness Monitoring
- Real-Time Alerts for Major Vibrations and Recording of Actual Structural Response
When a structure is subjected to events such as earthquakes, the system instantly sends an alert and records the actual structural response, including dynamic parameters and all movements that occur during the event.
- Real-Time Alerts for Major Vibrations and Recording of Actual Structural Response
- First-Ever Comprehensive and Accurate Earthquake Damage Assessment Without Destructive Testing
For the first time, earthquake-induced damage can be assessed comprehensively and precisely without the need for destructive testing, visual inspections, or structural drawings. This breakthrough is made possible by Sensequake’s patented technology.
- First-Ever Comprehensive and Accurate Earthquake Damage Assessment Without Destructive Testing
- 24/7 Web-Based Dashboard Control
Users can control the system, analyze data, and view results from any device—be it a computer, tablet, or smartphone.
The platform includes an automated report generation feature that is clear, hassle-free, and user-friendly, making it suitable for both engineers and executives seeking professional-level insights with ease.
- 24/7 Web-Based Dashboard Control
Compatible with All Types of Structures
Long-Term Structural Safety Monitoring
Continuously tracks the engineering condition of a structure to ensure its safety over time.
Post-Event Damage Assessment Without Invasive Methods
Evaluates damage levels after major events such as earthquakes or external impacts without the need for dismantling or destructive testing.
Precise Damage Localization
Identifies potentially damaged or weakened areas, enabling targeted repairs—saving both time and maintenance costs.
Historic structures
Bridges
Hospitals
Laboratories / Academic
High-rise buildings
Data centers
Residential
Manufacturing
Comprehensive, web-based dashboard.
Easy data visualization and project management, automatic modal analysis, 3D mode shapes, control sensor parameters remotely.
AI and advanced algorithms for damage detection, seismic analysis for building performance predictions
ShakeLog Features
Highly sensitive triaxial accelerometers & velocimeters, wide dynamic range, low noise
Rapid and accurate seismic damage evaluation, optimized sensor locations based on Sensequake proprietary approach
Web based control and analysis platform, modal analysis periodically to track stiffness parameters using A.I.
Voting mechanism between sensors for alarm triggers, local battery and data storage incase of blackouts
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