23 May 2025
First page of Gregory's preesentation in DCMC for using Q2 Laser RADAR for MRO
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Ommatidia at DCMC: MRO with Q2 Laser RADAR

On May 21st, Ommatidia LiDAR presented its cutting-edge Q2 Laser RADAR at the DCMC 2025 event in Hoogerheide, showcasing how non-contact, high-precision 3D metrology could revolutionize aircraft maintenance. With 128 parallel laser beams and sub-mm accuracy, Q2 offers a new path toward faster, safer, and more automated MRO workflows. Discover how we're shaping the next generation of aerospace inspection.
14 May 2025
Ommatidia workshop at the University of Patras, expanding practical applications of Q2 Massively Parallel Laser RADAR for vibrometry and metrology scanning
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Q2 Laser RADAR Revealing the Invisible at Multi-Beam Laser Vibrometry & Metrology Workshop at University of Patras, Greece

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.
30 April 2025
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Ommatidia LiDAR at IOMAC 2025

Join Ommatidia LiDAR at IOMAC 2025 from May 20–23 at Booth 1, Center at Rennes University, to explore the future of non-contact structural dynamics. We'll be showcasing the Q2 Laser RADAR, a massively parallel FMCW LiDAR system delivering real-time, full-field vibration analysis across 65 simultaneous channels. Designed for operational modal analysis (OMA) in automotive, aerospace, civil engineering, and machinery diagnostics, the Q2 offers micro-scanning precision, autofocus adaptability, and seamless integration with leading modal analysis platforms. Experience live demos and discover how Ommatidia is redefining high-precision vibrometry and SHM with scalable laser technologies.
30 April 2025
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Non-Contact Vibrometry of Sand and Glass Bead Beds Using Q1/Q2 Laser RADAR

Ommatidia LiDAR’s Q1/Q2 Laser RADAR is bringing aerospace-grade optical vibrometry to geoscience. In a recent campaign, the system was deployed to analyze vibration propagation in sandbanks and glass bead beds—entirely without contact or surface instrumentation. By capturing high-resolution phase-resolved data from afar, researchers were able to reconstruct wave dynamics across fault-like structures, offering a powerful new tool for seismic studies, terrain diagnostics, and civil engineering applications.
24 March 2025
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Korean Delegation Visits Ommatidia LIDAR to Boost Spain-Korea Collaboration

At Ommatidia LiDAR, we were honored to host a high-level Korean delegation led by Mr. Seungchul Oh, Vice Minister of MOTIE, and Ms. Min Byung Ju, President of KIAT. Their visit marked a significant milestone in Spain-Korea bilateral collaboration, as part of a KIAT initiative supported by CDTI_innovacion. Together with our partners IDNEO and DongWon Industries, we showcased our cutting-edge LiDAR technology and ongoing joint projects. This collaboration, which includes UPV, Hanyang University, ALC, and Viewnyx, reflects a strong commitment to driving industrial innovation across borders. We look forward to deepening this partnership and advancing shared technological goals.
21 February 2025
Ommatidia’s Massively Parallel Laser Radar Technology on Display at DAS / DAGA 2025 - the joint annual meeting of the German and Danish Acoustical Societies
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Ommatidia’s Massively Parallel Laser Radar Technology on Display at DAS / DAGA 2025

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.
19 February 2025
DOLL enables High-Speed Vibration Measurements with Q-series Laser Radars by Ommatidia
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DOLL™ – Expands 10x Q Laser RADAR Velocity Measurement Range, Enabling Applications in High-Speed Vibration Testing & Monitoring

Ommatidia LiDAR, the company leading the revolution in laser vibrometry, introduces DOLL™ (Digital Optical Locked Loop)—a groundbreaking feature that extends 10x the measurable velocity range of our flagship Q-series Massively Parallel Laser Radars that now can capture precise velocimetry up to 155 mm/s. The extended velocity range and real-time processing enables a single person to measure and monitor even extreme, high-speed conditions, ensuring better system safety, performance, and reliability.