Hyperspectral imaging for rapid evaluation and visualization of quality deterioration index of vacuum packaged dry-cured sausages

[Display omitted] •DFA was used to classify samples into groups with different quality indices.•HSI can be used to collect both spectral and spatial data of the sausage samples.•HSI coupled with PLS model could predict the assembled qualities of the sausage.•Distribution maps of quality indices faci...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2018-01, Vol.254, p.1025-1032
Main Author: Siripatrawan, Ubonrat
Format: Article
Language:English
Subjects:
Biosensors
Chemometrics
Color
Data visualization
Deterioration
Distribution map
Factor analysis
Hypercubes
Hyperspectral imaging
Hyperspectral sensors
Image processing
Nondestructive testing
Quality index
Quality management
Regression analysis
Regression models
Sausages
Spatial data
Spectroscopy
Studies
Visualization
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Summary:[Display omitted] •DFA was used to classify samples into groups with different quality indices.•HSI can be used to collect both spectral and spatial data of the sausage samples.•HSI coupled with PLS model could predict the assembled qualities of the sausage.•Distribution maps of quality indices facilitated the result interpretation.•HSI could be used as a rapid and nondestructive tool for food quality evaluation. A rapid and nondestructive method to evaluate and visualize quality of vacuum packaged dry-cured sausages was developed using hyperspectral imaging (HSI) spectroscopy. Changes in physicochemical, microbiological and sensory attributes of the packaged dry-cured sausages were monitored during storage at 20°C. Discriminant factor analysis (DFA) could classify samples into different groups as a function of storage time. The quality deterioration index (QDI) of the packaged dry-cured sausages was signified and assigned to the individual DFA classified groups. HSI spectroscopy was used to collect both spectral data in the wavelength range of 380–1000nm and spatial data of 68×68 pixels. Partial least squares (PLS) regression model was constructed to establish the relationship between the HSI hypercube data and the QDI. Distribution maps of the QDI were then constructed to visualize the quality attributes of the sausages. The color distribution map of the QDI enabled the identification of different qualities of the vacuum packaged sausages as a function of storage time. The results demonstrated that the HSI coupled with chemometric and image processing techniques can be used as a rapid and nondestructive method to evaluate quality of the sausages.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2017.07.006