Glare & Shade Patterns Resilient
Superior vision that sees through glare and shade, enhancing the reliability of face detection and recognition algorithms
Robotics
The Pitfalls of Robotic Vision Systems
Robotic systems are increasingly integrated into complex environments, ranging from warehouses and farms to public roads and factories. As the dependency on robots grows, their ability to perceive and understand the world around them becomes critical. Errors in object detection, navigation, or manipulation can lead to accidents, downtime, or mission failure.
This broad adoption brings new perception challenges. Vision systems must contend with reflective or transparent materials, cluttered scenes, and rapidly changing environments. Moreover, they often fail when lighting conditions are unpredictable, such as under glare, shadows, fog, or low-light. In such cases, traditional cameras cannot ensure consistent performance, and the risk of perception failure becomes significant.
These limitations are particularly problematic when robots must interact with a wide range of materials or handle safety-critical tasks. Without reliable sensing, robots cannot make the right decisions or operate autonomously with confidence. Solving these issues is essential to unlocking the full potential of robotic systems across industries.
SWIR imaging addresses both challenges by delivering high-contrast images even in low visibility and enabling material differentiation, which is critical for safe and efficient operation. However, current InGaAs-based SWIR cameras rely on costly exotic materials, limiting their scalability for robotics.
SWIR Sees It All – For Robotics
TriEye’s innovative CMOS-based HD SWIR sensor delivers enhanced, reliable image data for robotic systems, even in the most challenging lighting and environmental conditions, all at a cost that enables actual mass-market adoption.
Unlike traditional vision systems, TriEye’s sensing solution is immune to ambient noise from sunlight, reflections, or other light sources. It consistently provides precise visual data in scenarios that would typically impair robot perception, such as harsh sun-glare, deep shadows, fog, or reflective surfaces.
Moreover, the sensor enables real-time material classification, allowing robots to distinguish between different surface types, such as metal vs. plastic or skin vs. synthetic, supporting safer manipulation, obstacle detection, and navigation in complex environments.
SWIR image data can be processed using existing AI models or fused with visible-light images to generate more robust perception capabilities, enhancing the robot's decision-making, safety, and autonomy.
Benefits
Anti-Spoofing
Easily detects the use of artificial materials, including 3D masks, disguise artifacts and more
Eye-Safe and Indiscernible
Powerful Short-Wave Infrared illumination that is invisible and completely safe to the human eye
Cost-Effective
100 times cheaper compared to current InGaAs-based solutions, fit for mass-market applications
Size, Weight, and Power (SWAP)
Small form factor, light weight, and low power consumption that support flexible system and camera design
Seamless Integration
Integrates with existing ISP and AI algorithms, removing the barrier of training and developing new AI algorithms
Additional Resources
Brochure
CMOS-Based SWIR Sensing Solutions for Biometrics
While biometrics applications are becoming more pervasive and their expected performance is driven to perfection
Interview
How SWIR Sensing Can Advance Your Vision Capabilities
GoPhotonics spoke with TriEye’s CBO, Ziv Livne about the latest advancements in our world-first SWIR technology, the vision challenges we’re addressing, and how the Raven sensor is being leveraged to solve them
Blog
Remote Material Sensing Turns the Invisible, Visible
Every material has a unique spectral response defined by its chemical and physical characteristics; that response can be detected by comparing the relative intensities of carefully chosen spectral bands in a process called remote material sensing