SubsidieMeestersUnlocking LiDAR technology for European OEMS: For a future of smart and safe Traffic and Mobility
Xenomatix is pioneering a true solid-state LiDAR system that delivers high-resolution 8D environmental data with zero moving parts, meeting automotive OEM demands for cost, size, and reliability.
Projectdetails
Introduction
Xenomatix is radically innovating the standard operating principle of LiDAR by introducing a light-based 3D measurement system. It is the first to design the market-defined holy grail: a true solid-state LiDAR.
Unique Design
XenomatiX’s unique all semiconductor-based design is the first to meet cost, size, and robustness requirements without compromising measurement performance.
XenoLiDAR Features
XenoLiDAR, XenomatiX's high-resolution true solid-state LiDAR, generates 8D environmental measurement data, which includes:
- 2D images
- 3D images
- Intensity images
- Time levels
- Confidence levels
This guarantees superior detection reliability.
System-on-Chip
With zero moving parts, XenoLiDAR is a complete system-on-chip as demanded by automotive OEMs. By abandoning traditional light projection schemes and radically changing how light is projected into the environment, XenomatiX reveals the first true solid-state LiDAR with 100% proven silicon components to supply the B€ automotive LiDAR market.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.482.564 |
| Totale projectbegroting | € 3.546.520 |
Tijdlijn
| Startdatum | 1-11-2022 |
| Einddatum | 31-10-2024 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- XENOMATIXpenvoerder
Land(en)
Vergelijkbare projecten binnen EIC Accelerator
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
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Chip-scALe visiBLE-iNfrared imaGing sEnsorCHEERS aims to develop a cost-effective multi-spectral image sensor for automotive safety systems, enhancing visibility in harsh conditions to reduce road accidents. | EIC Accelerator | € 2.498.402 | 2024 | Details |
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Next Generation LiDAR for Automotive and Industrial Use Cases
Hybrid Lidar Systems aims to enhance driving safety by developing the LiSSA 3D Lidar, a low-cost, high-resolution sensor for improved object detection in autonomous vehicles.
New impetus to materials research - democratizing a frontier research tool
LynXes aims to democratize access to high-energy-resolution X-ray spectroscopy, revolutionizing materials analysis and boosting R&D in sustainable technologies across various industries.
Chip-scALe visiBLE-iNfrared imaGing sEnsor
CHEERS aims to develop a cost-effective multi-spectral image sensor for automotive safety systems, enhancing visibility in harsh conditions to reduce road accidents.
Europe’s first unified and versatile processing platform architecture in 5nm technology with proven scalability from edge to central high-performance solutions with unmatched cost and power efficiency
videantis aims to develop a scalable 5nm processor architecture for automotive and AI applications, enhancing European chip sovereignty and reducing costs for OEMs by up to 90%.
SR - the next generation display technology that empowers users to naturally and intuitively work, play and communicate in 3D - without wearables
Dimenco develops Simulated Reality technology for touchless interaction with realistic 3D objects, targeting design, gaming, and conferencing markets through OEM partnerships.
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|---|---|---|---|---|
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HYPER aims to develop a cost-effective tabletop coherent XUV microscope for advanced nanoscale imaging, enhancing accessibility and understanding in optoelectronics and biomedical applications.
Stable Polariton LiDAR
The SPLiDAR project aims to develop angle-independent polariton filters to overcome angular dispersion limitations in LiDAR systems, enhancing optical filtering and 3D sensing applications.
Dispersion force masked-based helium atom lithography
The FabouLACE project aims to develop a disruptive lithography technology using metastable atoms to achieve 2 nm chip features, enhancing performance and enabling new markets by 2031.
REMOTE MICROSCOPY, NANOSCOPY AND PICOSCOPY BY HYPERSPECTRAL LIDAR
HyperSense aims to revolutionize biosensing with advanced hyperspectral lidars, enabling unprecedented insights into biological interactions and structures across diverse spectral regions.
A light-efficient microscope for fast volumetric imaging of photon starved samples
LowLiteScope aims to revolutionize bioluminescence microscopy by using AI-driven light field techniques for high-resolution 3D imaging of biological samples, enhancing research capabilities in life sciences.