Massively Parallel Laser RADAR

Advanced 3D Vibrometry & Micron-Level Metrology

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A unique photonic integrated circuit (PIC) by Ommatidia LiDAR that enables world's first massively parallel FMCW Laser RADAR

Our Technology Revolutionizes 3D Vibrometry & Metrology.

A bee’s compound eye has 5000 ommatidia. Using them, it is able to fly at driving speed with sufficient accuracy to avoid predators and land on a tiny flower miles away from its hive.

Our technology mimics insect eyes to deliver extraordinary performance - namely, the ability to scan using multiple parallel laser beams simultaneously, greatly increasing the measurement efficiency over the traditional single-point LDVs or accelerometers.

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Converge 3D Metrology & Vibrometry

The ability of Q series Laser Radars to perform the NDT Vibrometry and Micron-Level Metrology Measurements, enables end user to infuse the resulting acquired point clouds with precise respective vibrometry data.

Long Range for Large & Complex Geometries

Our sensors are sensitive to a single photon, providing a range that extends the limits of physics. In standard configuration Q series systems are calibrated to offer ranges up 50m.

Reliable, Compact & Affordable

Our sensors are manufactured using patented technologies that allow extraordinary performance and a compact design of our Laser Radars (< 7kg). Making them suitable for tripod installation, and carrying onboard of commercial airplanes.

Inherently Efficient & Eye-Safe

Our ability to illuminate the scene continuously without scanning allows for a major increase in the number of photons available while retaining unconditional eye safety. Our Laser Radars utilize the 1550 nm Class 1 laser.

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Trusted Partners and Collaborators in Research, Innovation, and Industrial Applications

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Latest News & Upcoming Events

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.
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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.
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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.
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Advancing High-Precision Parallel LiDAR for Accurate Sensing

At Ommatidia LiDAR, we develop high-precision parallel LiDAR technology for non-contact, high-resolution measurements in a versatile and portable system.

Our Q-Series Laser RADAR integrates 3D imaging, metrology, and vibrometry, providing precise, real-time data acquisition for advanced sensing applications.

Instant Data Capture with High-Precision LiDAR

Unlike traditional scanners, our parallel LiDAR generates instant, high-density point clouds while simultaneously capturing vibration data. This makes it ideal for real-time monitoring, motion tracking, and structural analysis

By using coherent detection techniques, our system provides stable, noise-free measurements, even in dynamic environments. Whether applied in precision manufacturing, research, or engineering, our LiDAR-based sensing solutions set a new industry standard for measurement reliability and performance.

Metrology and Vibrometry in One System

With our technology, you no longer need separate measurement tools. The Q-Series Laser RADAR offers a scalable and adaptable solution for applications that require both dimensional accuracy and vibration analysis.

This flexibility reduces complexity and enhances efficiency, making it a cost-effective solution for advanced sensing and monitoring.

Discover the Future of High-Precision Parallel LiDAR

At Ommatidia LiDAR, we continue to advance high-precision parallel LiDAR to meet modern sensing and measurement needs.

Contact us today to see how our Q-Series Laser RADAR can improve your measurement and monitoring capabilities with a single, high-performance solution.

Why High-Precision Parallel LiDAR Matters

Our parallel LiDAR system uses a massively parallel architecture to capture multiple points at once. This design enhances spatial resolution, reduces scan time, and improves real-time data accuracy. Unlike traditional scanning methods, our technology allows for instantaneous measurements across large surfaces.

One of the system’s biggest advantages is its ability to perform both metrology and vibrometry in a single device. Conventional methods require separate tools for dimensional measurement and vibration monitoring, increasing complexity and cost. Our parallel LiDAR technology simplifies the process while ensuring greater accuracy and efficiency.