Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations
Currently, no objective method exists for estimating the rate of change in the colour of meat. Consequently, the purpose of this work is to develop a procedure capable of monitoring the change in colour of meat over time, environment and ingredients. This provides a useful tool to determine which st...
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doaj-c23bfbcd1a2049769b316ea69b36cdba2020-11-25T00:57:17ZengIM Publications OpenJournal of Spectral Imaging2040-45652040-45652012-11-013a110.1255/jsi.2012.a1Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformationsAsger Nyman Christiansen0Jens Michael Carstensen1Flemming Møller2Allan Aasbjerg Nielsen3a Department of Informatics and Mathematical Modelling, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmarka Department of Informatics and Mathematical Modelling, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark DuPont Nutrition Biosciences ApS, Physical Food Science, Edwin Rahrs vej 38, 8220 Brabrand, DenmarkNational Space Institute, Technical University of Denmark, DK-2800 Kgs. Lyngby, DenmarkCurrently, no objective method exists for estimating the rate of change in the colour of meat. Consequently, the purpose of this work is to develop a procedure capable of monitoring the change in colour of meat over time, environment and ingredients. This provides a useful tool to determine which storage environments and ingredients a manufacturer should add to meat to reduce the rate of change in colour. The procedure consists of taking multi-spectral images of a piece of meat as a function of time, clustering the pixels of these images into categories, including several types of meat, and extracting colour information from each category. The focus has primarily been on achieving an accurate categorisation since this is crucial to develop a useful method. The categorisation is done by applying an orthogonal transformation followed by k-means clustering. The purpose of the orthogonal transformation is to reduce the noise and amount of data while enhancing the difference between the categories. The orthogonal transformations principal components analysis, minimum noise fraction analysis and kernel-based versions of these have been applied to test which produce the most accurate categorisation.https://www.impublications.com/download.php?code=I03_a1multi-spectral imagingcategorisationprincipal components analysis (PCA)minimum noise fraction (MNF) analysiskernel-based orthogonal transformationsk-means clustering |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Asger Nyman Christiansen Jens Michael Carstensen Flemming Møller Allan Aasbjerg Nielsen |
spellingShingle |
Asger Nyman Christiansen Jens Michael Carstensen Flemming Møller Allan Aasbjerg Nielsen Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations Journal of Spectral Imaging multi-spectral imaging categorisation principal components analysis (PCA) minimum noise fraction (MNF) analysis kernel-based orthogonal transformations k-means clustering |
author_facet |
Asger Nyman Christiansen Jens Michael Carstensen Flemming Møller Allan Aasbjerg Nielsen |
author_sort |
Asger Nyman Christiansen |
title |
Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations |
title_short |
Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations |
title_full |
Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations |
title_fullStr |
Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations |
title_full_unstemmed |
Monitoring the change in colour of meat: A comparison of traditional and kernel-based orthogonal transformations |
title_sort |
monitoring the change in colour of meat: a comparison of traditional and kernel-based orthogonal transformations |
publisher |
IM Publications Open |
series |
Journal of Spectral Imaging |
issn |
2040-4565 2040-4565 |
publishDate |
2012-11-01 |
description |
Currently, no objective method exists for estimating the rate of change in the colour of meat. Consequently, the purpose of this work is to develop a procedure capable of monitoring the change in colour of meat over time, environment and ingredients. This provides a useful tool to determine which storage environments and ingredients a manufacturer should add to meat to reduce the rate of change in colour. The procedure consists of taking multi-spectral images of a piece of meat as a function of time, clustering the pixels of these images into categories, including several types of meat, and extracting colour information from each category. The focus has primarily been on achieving an accurate categorisation since this is crucial to develop a useful method. The categorisation is done by applying an orthogonal transformation followed by k-means clustering. The purpose of the orthogonal transformation is to reduce the noise and amount of data while enhancing the difference between the categories. The orthogonal transformations principal components analysis, minimum noise fraction analysis and kernel-based versions of these have been applied to test which produce the most accurate categorisation. |
topic |
multi-spectral imaging categorisation principal components analysis (PCA) minimum noise fraction (MNF) analysis kernel-based orthogonal transformations k-means clustering |
url |
https://www.impublications.com/download.php?code=I03_a1 |
work_keys_str_mv |
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1725224801702772736 |