Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging

Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging

The detection of carrageenan adulteration in chicken meat using a hyperspectral imaging (HSI) technique associated with three spectroscopic transforms was investigated. Minced chicken was adulterated with carrageenan solution (2% w/v) in the volume range of 0–5 mL at an increment of 1 mL. Hyperspect...

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Main Authors: Yue Zhang, Hongzhe Jiang, Wei Wang
Format: Article
Language:English
Published: MDPI AG 2019-09-01
Series:Applied Sciences
Subjects:
hyperspectral imaging
carrageenan
Kubelka-Munck
absorbance
adulteration
chicken meat
Online Access:https://www.mdpi.com/2076-3417/9/18/3926
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spelling doaj-79041aa8b39941cf8943b5fe980086da2020-11-25T01:18:12ZengMDPI AGApplied Sciences2076-34172019-09-01918392610.3390/app9183926app9183926Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral ImagingYue Zhang0Hongzhe Jiang1Wei Wang2Beijing Key Laboratory of Optimized Design for Modern Agricultural Equipment, College of Engineering, China Agricultural University, Beijing 100083, ChinaCollege of Mechanical and Electronic Engineering, Nanjing Forestry University, Nanjing 210037, ChinaBeijing Key Laboratory of Optimized Design for Modern Agricultural Equipment, College of Engineering, China Agricultural University, Beijing 100083, ChinaThe detection of carrageenan adulteration in chicken meat using a hyperspectral imaging (HSI) technique associated with three spectroscopic transforms was investigated. Minced chicken was adulterated with carrageenan solution (2% w/v) in the volume range of 0–5 mL at an increment of 1 mL. Hyperspectral images of prepared samples were captured in a reflectance mode in a Visible/Near-Infrared (Vis/NIR, 400–1000 nm) region. The reflectance (R) spectra were first extracted from regions of interest (ROIs) by applying a mask that was built using band math combined with thresholding and were then transformed into two other spectral units, absorbance (A) and Kubelka-Munck (KM). Partial least squares regression (PLSR) models based on full raw and preprocessed spectra in the three profiles were established and A spectra were found to perform best with R<sub>p</sub><sup>2</sup> = 0.92, root mean square error of prediction set (RMSEP) = 0.48, and residual predictive deviation (RPD) = 6.18. To simplify the models, several wavelengths were selected using regression coefficients (RC) based on all three spectral units, and 10 wavelengths selected from A spectra (409, 425, 444, 521, 582, 621, 763, 840, 893, and 939 nm) still performed best with the R<sub>p</sub><sup>2</sup>, RMSEP, and RPD of 0.85, 0.93, and 3.20, respectively. Thus, the preferred simplified RC-A-PLSR model was selected and transferred into each pixel to obtain the distribution maps and finally, the general different adulteration levels of different samples were readily discernible. The overall results ascertained that the HSI technique demonstrated to be an effective tool for detecting and visualizing carrageenan adulteration in authentic chicken meat, especially in the absorbance mode.https://www.mdpi.com/2076-3417/9/18/3926hyperspectral imagingcarrageenanKubelka-Munckabsorbanceadulterationchicken meat
collection DOAJ
language English
format Article
sources DOAJ
author Yue Zhang
Hongzhe Jiang
Wei Wang
spellingShingle Yue Zhang
Hongzhe Jiang
Wei Wang
Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging
Applied Sciences
hyperspectral imaging
carrageenan
Kubelka-Munck
absorbance
adulteration
chicken meat
author_facet Yue Zhang
Hongzhe Jiang
Wei Wang
author_sort Yue Zhang
title Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging
title_short Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging
title_full Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging
title_fullStr Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging
title_full_unstemmed Feasibility of the Detection of Carrageenan Adulteration in Chicken Meat Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging
title_sort feasibility of the detection of carrageenan adulteration in chicken meat using visible/near-infrared (vis/nir) hyperspectral imaging
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2019-09-01
description The detection of carrageenan adulteration in chicken meat using a hyperspectral imaging (HSI) technique associated with three spectroscopic transforms was investigated. Minced chicken was adulterated with carrageenan solution (2% w/v) in the volume range of 0–5 mL at an increment of 1 mL. Hyperspectral images of prepared samples were captured in a reflectance mode in a Visible/Near-Infrared (Vis/NIR, 400–1000 nm) region. The reflectance (R) spectra were first extracted from regions of interest (ROIs) by applying a mask that was built using band math combined with thresholding and were then transformed into two other spectral units, absorbance (A) and Kubelka-Munck (KM). Partial least squares regression (PLSR) models based on full raw and preprocessed spectra in the three profiles were established and A spectra were found to perform best with R<sub>p</sub><sup>2</sup> = 0.92, root mean square error of prediction set (RMSEP) = 0.48, and residual predictive deviation (RPD) = 6.18. To simplify the models, several wavelengths were selected using regression coefficients (RC) based on all three spectral units, and 10 wavelengths selected from A spectra (409, 425, 444, 521, 582, 621, 763, 840, 893, and 939 nm) still performed best with the R<sub>p</sub><sup>2</sup>, RMSEP, and RPD of 0.85, 0.93, and 3.20, respectively. Thus, the preferred simplified RC-A-PLSR model was selected and transferred into each pixel to obtain the distribution maps and finally, the general different adulteration levels of different samples were readily discernible. The overall results ascertained that the HSI technique demonstrated to be an effective tool for detecting and visualizing carrageenan adulteration in authentic chicken meat, especially in the absorbance mode.
topic hyperspectral imaging
carrageenan
Kubelka-Munck
absorbance
adulteration
chicken meat
url https://www.mdpi.com/2076-3417/9/18/3926
work_keys_str_mv AT yuezhang feasibilityofthedetectionofcarrageenanadulterationinchickenmeatusingvisiblenearinfraredvisnirhyperspectralimaging
AT hongzhejiang feasibilityofthedetectionofcarrageenanadulterationinchickenmeatusingvisiblenearinfraredvisnirhyperspectralimaging
AT weiwang feasibilityofthedetectionofcarrageenanadulterationinchickenmeatusingvisiblenearinfraredvisnirhyperspectralimaging
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