IE

iEYELAB

Redefine machine vision

iEYELAB logo

iEYELAB Innovation

Redefine machine vision

Let machines truly see clearly, distinguish materials and see through the physical world.

Professional multi-modal optic solution provider

0 px

Pixel registration error with physical coaxial alignment

< 10 ms

System latency for real-time machine control

16

Spectral channels in the engineering target stack

4

Core sensing dimensions: RGB, depth, polarization and spectrum

Common-path multi-modal sensing

Major industry pain-points

Traditional multi-sensor solutions are bulky, expensive and difficult to align because they lack a shared optical path and common viewpoint.

Can't see clearly

Transparent, highly reflective and black matte materials often break traditional camera-based inspection.

Can't distinguish

Objects with similar appearance but different material composition remain difficult to separate reliably.

Can't see through

Glass, plastic and hidden stress defects create blind spots for conventional imaging systems.

Can't act precisely nearby

Large near-field parallax in multi-camera systems makes precision grasping unstable.

Can't run fast enough

Heavy registration and heterogeneous data processing consume compute and block real-time control.

Can't scale affordably

Multiple independent optical stacks increase size, cost and deployment complexity.

A shared optical path, not a stitched workaround

By unifying sensors at the physical optical level, iEYELAB turns algorithm-level registration into native physical alignment.

Multi Vision

compact optical path multi-sensor module

Polarization
Spectrum
iToF

Single Lens · Common Optical Path · Multi-Sensors

Single lens, common optical path and multi-sensor module

Transparent, reflective and visually similar material detection

Compact 3-in-1 architecture designed for scalable deployment

Explore Technology

Four sensing dimensions, one coherent view

RGB imaging

4K-class visual detail restoration provides the natural base layer for multi-modal understanding.

Depth sensing

Millimeter-scale 3D perception enables stable geometry measurement and robot interaction.

Polarization imaging

Captures surface reflectance, material signatures and transparent object cues beyond visible texture.

Multi-spectral imaging

Extends perception into wavelength-based material and composition analysis.

Product matrix

Deep View

RGB + Depth for robust 3D-aware machine vision.

Lakeview

Polarization + RGB for reflective, transparent and stress-sensitive materials.

Oceanview

RGB + Depth + Polarization for advanced industrial and robotics perception.

Trinity

Polarization + Spectrum + Depth + RGB for the highest-dimensional sensing scenarios.

Deep View
Lakeview
Oceanview

Application scenarios

Industrial robots in pharma and chemical factories

Enable transparent vessel grasping, chemical identification and precise near-field operation.

Embodied intelligence

Turn multi-modal perception into a standardized robotic eye for real-world complexity.

Multimodal AI data collection

Provide co-view, physically aligned data for model training and evaluation.

Security and anti-counterfeit inspection

See through disguise materials, masks and photo attacks with richer physical cues.

Why iEYELAB

Rare full-stack optical capability

From simulation and prism design to coating, calibration and whole-system integration.

Hardware-native fusion architecture

A common-path platform that eliminates registration overhead at the root.

Strong IP and research foundation

Patent applications and top-tier publications reinforce long-term defensibility.

Industrial ecosystem collaboration

Built with academic and supply-chain partners across optics, sensors and manufacturing.

Two partnership models

Standard module sales

For integrators and robotics OEMs needing fast integration with documentation and development support.

Custom ODM development

Scene-specific co-development covering optical parameters, mechanical structure, interfaces and SDK delivery.