Ommatidia LiDAR is excited to announce its participation in Measuring By Light 2025, taking place from April 1-3, 2025, at AULA, Delft University of Technology, The Netherlands. At this premier event, Ommatidia at Measuring By Light will highlight the Q2 Laser RADAR, a breakthrough in high-precision vibrometry and 3D metrology that is transforming the way industries measure, analyze, and optimize performance.
Ommatidia at Measuring By Light: Experience the Future of Measurement
Visitors to our booth will have the opportunity to witness firsthand the cutting-edge capabilities of the Q2 Laser RADAR. This massively parallel laser technology revolutionizes non-contact, high-speed scanning across multiple industrial applications, including structural health monitoring (SHM), noise, vibration, and harshness (NVH) analysis, aerospace, and energy sectors.
What You’ll See at Our Live Demo
Real-time vibrometry & metrology scans powered by massively parallel laser technology
Autofocus & micro-scanning features, ensuring precision even on complex surfaces
Seamless data capture & visualization with our advanced Atelier 8.0 software
With a scanning range of up to 50 meters and the ability to simultaneously analyze 65 channels, the Q2 Laser RADAR is setting new industry standards in precision measurement and real-time vibration analysis.
Q2 Laser RADAR: Transforming High-Precision Measurements
Key Features:
Autofocus Technology for precise measurements across varying distances
Micro-Scanning Elevation for detailed inspections on challenging surfaces
Integrated RGB Camera to enhance visualization and simplify programming
High-speed data processing with Atelier 8.0, providing enhanced real-time insights and improved integration with third-party software
A New Era in Structural Health Monitoring and Industrial Metrology
The Q2 Laser RADAR is designed to outperform traditional measurement methods by providing fast, accurate, and non-invasive data collection. Whether for monitoring large structures, optimizing industrial automation, or improving aerospace safety, our advanced FMCW LiDAR technology ensures maximum precision and efficiency.
Massively Parallel FMCW Laser: A Game-Changer in 3D Vibrometry, Acoustics & Noise Control
1. NVH (Noise, Vibration, and Harshness) in Automotive Engineering
In the automotive industry, Laser Doppler Vibrometry (LDV) is essential for analyzing structural vibrations and their impact on overall vehicle noise. It helps engineers:
- Detect resonance frequencies and structural-borne noise sources in panels, dashboards, doors, and engine compartments.
- Optimize materials and designs to create quieter, more comfortable vehicles with improved acoustic insulation.
- Develop active noise cancellation systems and enhance EV acoustics, addressing challenges like motor whine and road noise in electric vehicles.
2. Structural Acoustics in Aerospace Engineering
In aerospace applications, LDV is crucial for measuring the vibrational behavior of fuselage panels, wings, and engine casings. This technology aids in:
- Reducing aeroacoustic noise and minimizing structural fatigue.
- Analyzing turbine noise by mapping how acoustic waves travel through metallic and composite materials, leading to quieter, more efficient aircraft.
- Identifying and mitigating vibration-induced fatigue, enhancing durability, safety, and passenger comfort.
3. Architectural Acoustics & Structural Noise Control
In civil engineering and architectural acoustics, LDV is used to evaluate building panel vibrations and assess sound transmission. It helps:
- Design soundproof environments for offices, concert halls, theaters, and recording studios by optimizing material selection and damping techniques.
- Predict and mitigate structural-borne noise, including impact noise from footsteps, machinery vibrations, and HVAC systems.
4. Industrial & Machinery Noise Reduction
LDV is instrumental in monitoring vibrations in industrial machinery and manufacturing environments. It supports:
- Predictive maintenance, detecting early signs of resonance, imbalance, and material fatigue to prevent costly failures.
- Reducing noise pollution and operational inefficiencies caused by excessive vibrations.
- Optimizing machine enclosures and isolation techniques, improving worker safety and ensuring compliance with noise regulations.
Meet Ommatidia at Measuring By Light 2025
Booth at Measuring By Light 2025, Delft University of Technology
April 1-3, 2025
Interested in a live demo? Visit our booth or contact us to schedule a private demonstration!
Join us in Delft and experience how Ommatidia at Measuring By Light 2025 is pushing the boundaries of non-contact, high-speed scanning and reshaping the future of industrial measurement and metrology.
