Features

SightScope intelligent photonic sensors incorporate Optical Coherence Tomography (OCT)-based imaging to provide high-resolution, subsurface, non-invasive imaging with the ability to image up to 15 mm in depth and achieve less than 5 μm in depth resolution. Based on light, rather than sound or radio frequency, SightScope primarily uses the principle of low coherence interferometry to obtain depth information from light that is backscattered from a sample and can build clear 3D images of thick samples by rejecting background signals while collecting light directly reflected from surfaces of interest. By stacking scans in X and/or Y directions, two or three dimensional imaging is feasible.

Autonomous

Rapid, accurate, real-time image capture

Micron-level resolution

3D imaging & dimensional analysis

Modular & Interoperable

Chemical mixture detection

Decentralized sensing powered by machine learning

Wireless cloud connectivity

Embedded FPGA technology

Benefits

Minimal Groundtruthing and Product Integration Time

Powerful machine-learning software works rapidly to build, cluster and label a clean and congruent dataset, slashing product integration time and cutting associated costs.

Industry 4.0 Compatible

SightScope delivers fully autonomous operation, part tracking through the entire life cycle, root cause and predictive analysis, and multi-stage connectivity enabling Industry 4.0.

Complete Sensor Flexibility

Compatible with any number and type of sensor, including OCT, hyperspectral, ultrasonic, 3D laser scanners, digital and thermal cameras.

Increased Efficiency

Superior computing power delivers higher throughput, greater product quality, in-motion real-time inspection and enhanced data analytics capabilities.

Lower Costs

Robust situational awareness results in fewer inspection errors, reduced recall costs, decreased product integration time and lower rejection rates of good products.

Easy-to-Use Interface

Oversee your operations with our intuitive, desktop and mobile-compatible interface.