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.
Stay up to date with the latest developments in LiDAR technology and products. From new releases and performance breakthroughs to industry trends and applications, here you'll find the most relevant LiDAR news and insights.
Explore innovations shaping the future of mapping, automation, and 3D sensing.
At MetroAutomotive 2025 in Parma, Ommatidia LiDAR showcased its Q2 Laser RADAR system, delivering live demos focused on non-contact NVH testing, 3D surface metrology, and automated in-line inspection. The event highlighted how massively parallel laser RADAR is setting a new standard for speed, precision, and integration in automotive manufacturing.
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.
Ommatidia LiDAR, a leader in laser vibrometry, introduces DOLL™ (Digital Optical Locked Loop)—a breakthrough feature that extends the measurable velocity range of Q-Series Massively Parallel Laser RADARs by 10×, capturing precise velocimetry up to 155 mm/s. With real-time processing and an expanded velocity range, a single operator can measure and monitor extreme high-speed conditions, enhancing system safety, performance, and reliability.
Photonic integrated circuits (PICs) enhance Ommatidia’s Laser RADAR, enabling compact, energy-efficient, and reliable systems with real-time data processing for high-precision applications in aerospace, automotive, and civil engineering.
