This application note shows the capability of Ommatidia Q2 Laser Doppler vibrometer to measure the vibrations of a concrete slab under the impact of a hammer, with a high density of points in simultaneous frames of 65 points.
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Patras, Greece | May 6, 2025 — Ommatidia LiDAR led a hands-on workshop at the University of Patras, showcasing the Q2 Laser RADAR: the world’s first massively parallel FMCW LiDAR for contactless vibrometry and 3D metrology. Discover how this breakthrough technology is reshaping research and industry applications across aerospace, wind energy, railways, and more.
Join Ommatidia along with hundreds of experts in acoustics and vibrometry at DAS / DAGA 2025—the joint annual meeting of the German and Danish Acoustical Societies—taking place at Copenhagen’s Bella Centre from March 17-20, 2025.
This marks the first time, Ommatidia is presenting its groundbreaking Massively Parallel Laser Radar technology and its transformative applications in acoustics, 3D vibrometry, and metrology to a wider audience in Scandinavia.
Discover how Ommatidia’s Q1 and Q2 systems revolutionize vibration analysis and 3D measurement with unmatched accuracy, real-time data acquisition, and Industry 4.0 integration by merging the advantages of Scanning Laser Doppler Vibrometry and Advanced FMCW LiDAR. From structural health monitoring to advanced metrology, Laser RADAR sets a new standard in precision and efficiency for various industries.
Ommatidia LiDAR’s Laser RADAR revolutionizes GVT with non-contact, high-resolution technology, reducing setup time, enhancing precision, and enabling cost-effective testing for aircraft certification, design optimization, operational testing, and prototype validation.
Ommatidia LIDAR’s Q1 uses lidar-based imaging to simplify vibration analysis for industrial maintenance. Visualizing vibrations at 50-300 kHz, it enhances predictive maintenance, quality control, and energy efficiency. Embrace the future of maintenance with the Q1.
