Lumotive’s New LCM Underpins Next-Gen Lidar
The Lumotive microchip uses a patented metamaterial delivering ‘smart’ properties to achieve superior sensing performance.
“The future happened yesterday” is an appropriate description of the rapid pace of development in automated-driving technology. The expression may be most accurate in sensor tech where, for most OEMs (except Tesla thus far), radar and lidar increasingly are considered an essential duo for enhanced automated driving beyond SAE Level 2, and of course for full Level 4-5 automation.
Current lidar is transitioning from electro-mechanical systems to solid-state devices. Considered by industry experts to be the technology’s inevitable future, Lidar 2.0 is next-generation 3D sensing that is software-defined, solid-state and scalable. Engineers believe those capabilities will make lidar ubiquitous by reducing costs, speeding innovation and improving user experience.
But despite improvements made in the areas of cost, size, and reliability, there have been unacceptable tradeoffs in the areas of range, resolution and field of view (FoV). One lidar- enabling technology that its developers assert ticks all the boxes is an optical semiconductor from Lumotive. The company calls it a Light Control Metasurface (LCM).
At the core of the Lumotive microchip is a patented metamaterial, one with ‘smart’ properties capable of blocking, absorbing, enhancing, or bending electromagnetic waves to achieve sensing performance exceeding that of conventional materials. The Lumotive chip’s scalable, solid-state 3D sensing architecture uses patented beam-steering technology (no moving parts) to deliver a combination of best-in-class performance, cost, reliability and size, according to Dr. Sam Heidari, Lumotive CEO. And with zero mechanical inertia, Lumotive’s LCMs enable steering of light in any pattern across the entire field of view within microseconds.
“I can change my VOI (vision of interest) as I please,” Heidari told SAE Media at CES 2023. “I can define how I want to look at the world. If I want high resolution as one VOI, I can do that.” And if high frame rate as a VOI is desired, “I can do that, too. You can only do that with our technology.”
The Lumotive chip is the key component of the company’s Open Lidar API (application programming interface), a technology aimed at leading the industry towards scalable, ubiquitous and lower-cost 3D sensing based on Lidar 2.0 technology. According to Heidari, more than two
dozen companies currently are evaluating the LCM technology. It has applications beyond mobility Lidar 2.0, including communications, computation, photography and holographic displays, he added.
Top Stories
INSIDERDefense
This Robot Dog Detects Nuclear Material and Chemical Weapons
INSIDERManned Systems
Testing the Viability of Autonomous Laser Welding in Space
INSIDERTest & Measurement
Germany's New Military Surveillance Jet Completes First Flight
NewsUnmanned Systems
The Unusual Machines Approach to Low-Cost Drones and Drone Components
INSIDERSoftware
Accelerating Climate-Compatible Aircraft Design with AI
INSIDERManufacturing & Prototyping
Webcasts
Software
Best Practices for Developing Safe and Secure Modular Software
Power
Designing an HVAC Modeling Workflow for Cabin Energy Management...
Aerospace
Countering the Evolving Challenge of Integrating UAS Into...
Manned Systems
How Pratt & Whitney Uses a Robot to Help Build Jet Engines
Manufacturing & Prototyping
Scaling Manufacturing and Production for 'Data as a Service' Electric Drone
Test & Measurement
A Quick Guide to Multi-Axis Simulation and Component Testing