LARzé : Sensequake
Wireless Vibration Monitoring System designed for use in civil engineering, structural engineering, and mechanical engineering applications, specifically for structural behavior analysis and building health assessment.
Key Features of LARzé:
- 3D Vibration Monitoring Utilizes high-quality MEMS sensors to detect ground or structural vibrations in three dimensions
- Wireless and Portable Connects wirelessly via Wi-Fi and can be rapidly deployed at actual job sites
- Automatic Data Storage System Capable of storing data on internal memory or transferring via USB/GPS
- Built-in Long-lasting Battery Rechargeable and suitable for continuous field operation without requiring constant power connection
| Benefits | Details |
|---|---|
| 🔍 Structural Behavior Analysis | Monitor vibrations of buildings, bridges, and structures to assess safety |
| 🏗 Structural Health Monitoring (SHM) | Used in Structural Health Monitoring systems to detect issues before they escalate |
| 🌍 Seismic Wave Measurement | Suitable for earthquake research or seismic risk assessment work |
| 🚧 Easy Operation in Construction Sites or Real Job Sites | Wireless and portable design enables convenient installation and relocation of monitoring points |
Control your Larzé sensors from the palm of your hand.
With the Sensequake app downloaded directly onto your smartphone, you can unlock unlimited control of your Larzé sensors. google-play-badge (1).png Set testing parameters. Run data collection. Monitor sensor units.
3D-SAM Software (Patented)
🔧What is 3D-SAM? 3D-SAM (3D Structural Analysis Module) is specialized software developed by Sensequake, which has been patented. It is designed to work directly with data from vibration monitoring sensors such as LARzé. The key features of this system include:
- Processing real sensing data from vibration measurements collected at actual sites
- Computing 3D dynamic structural behavior analysis
- Supporting online modal identification through web browsers without requiring software installation
🧠 Advanced Dynamic Analysis Techniques Supported
| Technique | Description |
|---|---|
| SSI (Stochastic Subspace Identification) | Uses environmental noise signals (such as wind forces, minor vibrations) to analyze structural behavior without requiring any input excitation forces |
| FDD (Frequency Domain Decomposition) | Analyzes natural modes of structures in the frequency domain by decomposing vibration data into various components |
| EFDD (Enhanced Frequency Domain Decomposition) | An advanced version of FDD that provides higher accuracy, particularly in damping evaluation |
Calculate natural frequencies, mode shapes and damping ratios from ambient vibration testing.
Render accurate mode shapes and animated 3D models. Structural analysis without the need of finite element models – only the structure’s simplified geometry.
Render accurate mode shapes and animated 3D models. Structural analysis without the need of finite element models – only the structure’s simplified geometry.
| Capability | Description |
|---|---|
| Natural Frequency, Mode Shapes, and Damping Ratio Calculation | Computes natural frequencies, vibration patterns, and damping ratios from Ambient Vibration Testing |
| Accurate Mode Shape Visualization | Displays precise Mode Shapes with animated 3D models |
| Simplified Structural Analysis | Analyzes structural behavior without requiring Finite Element models — uses only simple geometric shapes of the structure |
Read Our Latest News
News & Articles
Wireless Earthquake Warning System
is a wireless earthquake warning system designed for real-time seismic vibration monitoring.
It is ideal for industrial facilities, high-rise buildings, historical structures,
and other critical infrastructures.
Different Types of Maintenance: Advantages and Disadvantages While preventive maintenance and predictive maintenance both play crucial roles in keeping your
