defect
highlighting
Defect highlighting powered by Hyperspectral Imaging (HSI) and spectroscopy ensures superior product quality by identifying surface and sub-surface flaws in food and agricultural goods.
Unlike traditional visual inspection, HSI provides advanced detection capabilities, highlighting imperfections like bruises, cracks, and foreign particles that may not be visible to the human eye.
By leveraging Beyond's HSI technology, manufacturers can enhance product quality, minimize waste, and ensure consumer satisfaction.
benefits
Improve Quality Control
Identify defects early, ensuring only top-quality products make it to market.
Reduce Waste
By detecting and removing flawed items efficiently, reduce production waste and optimize resource use.
Boost Brand Reputation
Consistently deliver high-quality products, building trust and loyalty among consumers.
Enhance Operational Efficiency
Automate defect detection processes, speeding up production lines and reducing manual labor.
application examples
Fruit & Vegetable Inspection
Identify inconsistencies in the texture and appearance of dairy items.
Dairy Products
Identify inconsistencies in the texture and appearance of dairy items.
Packaged Goods
Check for packaging defects or contaminants in processed foods.
data speaks
↓30%
Reduction in product waste through
accurate defect detection
(Source: Journal of Food Quality)
↑20%
Increase in operational efficiency
with HSI-enabled automation
(Source: Food Processing Research Institute)
↓15%
Decrease in customer complaints
related to product defects
(Source: Global Food Safety Report)
how does it work?
Hyperspectral imaging (HSI) technology is designed to detect defects by analyzing the light reflected off product surfaces.
(a)
HSI captures light across a broad range of wavelengths. By measuring how light is absorbed or reflected by the product surface, it reveals subtle imperfections like bruises, cracks, or foreign particles.
(b)
Each defect type has a unique spectral signature or "fingerprint." Beyond’s HSI technology compares these fingerprints against a database to identify and classify flaws with high accuracy.
(c)
Powerful algorithms analyze spectral data and detect deviations from standard quality benchmarks. This enables the system to pinpoint even hidden defects.
(d)
The system provides immediate feedback, allowing for instant defect sorting or corrective measures, which reduces waste and maintains product quality.
