Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning
This study intends to evaluate the utilization potential of the combined Raman spectroscopy and machine learning approach to quickly identify the rainbow trout adulteration in Atlantic salmon. The adulterated samples contained various concentrations (0–100% w/w at 10% intervals) of rainbow trout mix...
| Published in: | Molecules |
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| Language: | English |
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Multidisciplinary Digital Publishing Institute
2019
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| Online Access: | https://doi.org/10.3390/molecules24152851 |
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ftmdpi:oai:mdpi.com:/1420-3049/24/15/2851/ 2023-08-20T04:05:13+02:00 Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning Zeling Chen Ting Wu Cheng Xiang Xiaoyan Xu Xingguo Tian agris 2019-08-06 application/pdf https://doi.org/10.3390/molecules24152851 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/molecules24152851 https://creativecommons.org/licenses/by/4.0/ Molecules; Volume 24; Issue 15; Pages: 2851 Atlantic salmon adulteration Raman spectroscopy machine learning Text 2019 ftmdpi https://doi.org/10.3390/molecules24152851 2023-07-31T22:29:52Z This study intends to evaluate the utilization potential of the combined Raman spectroscopy and machine learning approach to quickly identify the rainbow trout adulteration in Atlantic salmon. The adulterated samples contained various concentrations (0–100% w/w at 10% intervals) of rainbow trout mixed into Atlantic salmon. Spectral preprocessing methods, such as first derivative, second derivative, multiple scattering correction (MSC), and standard normal variate, were employed. Unsupervised algorithms, such as recursive feature elimination, genetic algorithm (GA), and simulated annealing, and supervised K-means clustering (KM) algorithm were used for selecting important spectral bands to reduce the spectral complexity and improve the model stability. Finally, the performances of various machine learning models, including linear regression, nonlinear regression, regression tree, and rule-based models, were verified and compared. The results denoted that the developed GA–KM–Cubist machine learning model achieved satisfactory results based on MSC preprocessing. The determination coefficient (R2) and root mean square error of prediction sets (RMSEP) in the test sets were 0.87 and 10.93, respectively. These results indicate that Raman spectroscopy can be used as an effective Atlantic salmon adulteration identification method; further, the developed model can be used for quantitatively analyzing the rainbow trout adulteration in Atlantic salmon. Text Atlantic salmon MDPI Open Access Publishing Molecules 24 15 2851 |
| institution |
Open Polar |
| collection |
MDPI Open Access Publishing |
| op_collection_id |
ftmdpi |
| language |
English |
| topic |
Atlantic salmon adulteration Raman spectroscopy machine learning |
| spellingShingle |
Atlantic salmon adulteration Raman spectroscopy machine learning Zeling Chen Ting Wu Cheng Xiang Xiaoyan Xu Xingguo Tian Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning |
| topic_facet |
Atlantic salmon adulteration Raman spectroscopy machine learning |
| description |
This study intends to evaluate the utilization potential of the combined Raman spectroscopy and machine learning approach to quickly identify the rainbow trout adulteration in Atlantic salmon. The adulterated samples contained various concentrations (0–100% w/w at 10% intervals) of rainbow trout mixed into Atlantic salmon. Spectral preprocessing methods, such as first derivative, second derivative, multiple scattering correction (MSC), and standard normal variate, were employed. Unsupervised algorithms, such as recursive feature elimination, genetic algorithm (GA), and simulated annealing, and supervised K-means clustering (KM) algorithm were used for selecting important spectral bands to reduce the spectral complexity and improve the model stability. Finally, the performances of various machine learning models, including linear regression, nonlinear regression, regression tree, and rule-based models, were verified and compared. The results denoted that the developed GA–KM–Cubist machine learning model achieved satisfactory results based on MSC preprocessing. The determination coefficient (R2) and root mean square error of prediction sets (RMSEP) in the test sets were 0.87 and 10.93, respectively. These results indicate that Raman spectroscopy can be used as an effective Atlantic salmon adulteration identification method; further, the developed model can be used for quantitatively analyzing the rainbow trout adulteration in Atlantic salmon. |
| format |
Text |
| author |
Zeling Chen Ting Wu Cheng Xiang Xiaoyan Xu Xingguo Tian |
| author_facet |
Zeling Chen Ting Wu Cheng Xiang Xiaoyan Xu Xingguo Tian |
| author_sort |
Zeling Chen |
| title |
Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning |
| title_short |
Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning |
| title_full |
Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning |
| title_fullStr |
Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning |
| title_full_unstemmed |
Rapid Identification of Rainbow Trout Adulteration in Atlantic Salmon by Raman Spectroscopy Combined with Machine Learning |
| title_sort |
rapid identification of rainbow trout adulteration in atlantic salmon by raman spectroscopy combined with machine learning |
| publisher |
Multidisciplinary Digital Publishing Institute |
| publishDate |
2019 |
| url |
https://doi.org/10.3390/molecules24152851 |
| op_coverage |
agris |
| genre |
Atlantic salmon |
| genre_facet |
Atlantic salmon |
| op_source |
Molecules; Volume 24; Issue 15; Pages: 2851 |
| op_relation |
https://dx.doi.org/10.3390/molecules24152851 |
| op_rights |
https://creativecommons.org/licenses/by/4.0/ |
| op_doi |
https://doi.org/10.3390/molecules24152851 |
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Molecules |
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24 |
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15 |
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2851 |
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1774715687545077760 |