Vibrational dynamics of a Morane Saulnier MS.760 Paris aircraft wing, with Ommatidia Q2 Laser Radar: a contactless, easy to deploy alternative capable of capturing full 3D vibrometry and metrology data using a single mobile unit. A single operator performs comprehensive 3D vibration measurements across aircraft structures, including: wing tips, wing roots, fuselage, auxiliary power units, fuselage sections, and structural junctions. Collaboration with ONERA.
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Explore innovations shaping the future of mapping, automation, and 3D sensing.
This work explores the measurement and analysis of chirp acoustic signals using the Ommatidia Q2 Laser Doppler Vibrometer. With its non-contact, high-resolution vibration sensing, the Q2 enables accurate capture of acoustic responses over a wide frequency range, making it a powerful tool for advanced acoustic testing and diagnostics.
Ommatidia LiDAR has completed the delivery and hands-on training of our Q2 Laser Radar system at The University of Texas at Austin (UT Austin), where it will support experimental research requiring precise, repeatable, non-contact measurements.
Traditional modal analysis can take days of setup and scanning to capture vibration data point by point. With Ommatidia LiDAR’s Q2 Laser RADAR, full-field quantitative modal analysis is completed in just 20 minutes. This walkthrough explains how parallel-beam laser radar delivers precise, non-contact 3D metrology and vibrometry across hundreds of points simultaneously—transforming how researchers, engineers, and testing labs measure structural dynamics.
