Earlier this month, Ommatidia LiDAR participated in the 31st International Congress on Sound and Vibration (ICSV31) in Korea 🇰🇷. This global event brought together experts in acoustics, structural dynamics, and vibration analysis. We were proud to be there alongside our Korean partner, Joowon Industrial Co., Ltd., and to present our most advanced system to date: the Q2 Laser RADAR.
Ommatidia & Joowon team at ICSV31
Held in the heart of Korea’s innovation ecosystem, ICSV31 attracted specialists from aerospace, automotive, civil engineering, and beyond. The response to our live demos and booth was overwhelmingly positive. Many attendees were eager to explore tools for non-contact, multi-point vibration monitoring and real-time structural diagnostics. These are areas where the Q2 Laser RADAR excels. Whether you’re working on spacecraft components, testing EV motors, or monitoring infrastructure, Q2 delivers high-resolution insights—without requiring contact, targets, or mechanical scanning. Vibration maps for detected peak frequencies🎯 A Global Stage for the Future of Vibrometry
🔬 Why the Q2 Laser RADAR Stood Out
Q2 Massively Parallel Laser Radar for 3D Vibrometry & Micron-Level Metrology Scanner by Ommatidia LiDAR
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The Q2 is built around a proprietary photonic integrated circuit, designed for parallel, non-contact vibrometry. Its standout features include:
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✅ 65+ laser channels for simultaneous measurement
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✅ Micron-level displacement and sub-mm vibration resolution
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✅ Integrated FFT analysis for real-time diagnostics
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✅ Compact and rugged design, ready for lab or field use
Because of these capabilities, Q2 is ideal for:
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NVH testing in vehicles and machinery
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Component fatigue analysis
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Modal testing in aerospace and mechanical systems
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Structural Health Monitoring (SHM) in bridges and civil infrastructure
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At ICSV31, Q2 showed its strengths in both NVH and SHM applications. With its massively parallel FMCW LiDAR, Q2 performs multi-channel, non-contact vibrometry with incredible precision. Its built-in FFT engine provides detailed frequency insights for modal tuning, vibration profiling, and acoustic analysis. Meanwhile, in SHM scenarios, Q2 enables full-field monitoring of structures like bridges, facades, and industrial components—all without touching the surface. Its rugged, compact form factor and plug-and-measure operation make it perfect for both research and on-site diagnostics. As a result, engineers can react faster and gain clearer insights into structural behavior. 🎧 Q2 for NVH and Structural Health Monitoring
🤝 A Growing Interest Across Industries
The conversations we had at ICSV31 made one thing clear: industries are actively seeking reliable, non-contact alternatives to traditional vibration sensors.
Researchers, OEMs, and civil infrastructure teams were particularly interested in how Q2 could improve testing workflows. Compared to accelerometers, LDVs, or strain gauges, Q2 offers faster data acquisition, higher spatial coverage, and greater flexibility—especially for systems under load or in motion.
📩 Let’s Keep the Conversation Going
If you didn’t catch us at ICSV31, we’d still love to connect. Whether you’re preparing for a modal test, developing a new SHM strategy, or updating your NDT toolkit, the Q2 Laser RADAR is ready to support your next step.
Thank you, Korea and the ICSV31 community, for an inspiring event.
We’re excited to continue these conversations and expand the reach of next-generation vibrometry.
