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利用多模式光谱和基于融合的人工智能对多个供应链节点的鱼类新鲜度进行快速评估。

Rapid Assessment of Fish Freshness for Multiple Supply-Chain Nodes Using Multi-Mode Spectroscopy and Fusion-Based Artificial Intelligence.

机构信息

SafetySpect Inc., Grand Forks, ND 58202, USA.

Institute for Global Food Security, School of Biological Sciences, Queen's University Belfast, Belfast BT9 5DL, UK.

出版信息

Sensors (Basel). 2023 May 28;23(11):5149. doi: 10.3390/s23115149.

DOI:10.3390/s23115149
PMID:37299875
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10255221/
Abstract

This study is directed towards developing a fast, non-destructive, and easy-to-use handheld multimode spectroscopic system for fish quality assessment. We apply data fusion of visible near infra-red (VIS-NIR) and short wave infra-red (SWIR) reflectance and fluorescence (FL) spectroscopy data features to classify fish from fresh to spoiled condition. Farmed Atlantic and wild coho and chinook salmon and sablefish fillets were measured. Three hundred measurement points on each of four fillets were taken every two days over 14 days for a total of 8400 measurements for each spectral mode. Multiple machine learning techniques including principal component analysis, self-organized maps, linear and quadratic discriminant analyses, k-nearest neighbors, random forest, support vector machine, and linear regression, as well as ensemble and majority voting methods, were used to explore spectroscopy data measured on fillets and to train classification models to predict freshness. Our results show that multi-mode spectroscopy achieves 95% accuracy, improving the accuracies of the FL, VIS-NIR and SWIR single-mode spectroscopies by 26, 10 and 9%, respectively. We conclude that multi-mode spectroscopy and data fusion analysis has the potential to accurately assess freshness and predict shelf life for fish fillets and recommend this study be expanded to a larger number of species in the future.

摘要

本研究旨在开发一种快速、无损、易于使用的手持式多模式光谱系统,用于评估鱼类的质量。我们应用可见近红外(VIS-NIR)和短波红外(SWIR)反射和荧光(FL)光谱数据特征的融合来对从新鲜到变质状态的鱼类进行分类。我们测量了养殖大西洋三文鱼、野生银鲑和虹鳟鱼片以及大比目鱼片。在 14 天内,每两天对每条鱼片的四个部位各测量 300 个点,每个光谱模式共测量 8400 个点。我们使用了多种机器学习技术,包括主成分分析、自组织映射、线性和二次判别分析、k-最近邻、随机森林、支持向量机和线性回归,以及集成和多数投票方法,来探索鱼片上测量的光谱数据,并训练分类模型来预测新鲜度。我们的结果表明,多模式光谱学达到了 95%的准确率,分别提高了 FL、VIS-NIR 和 SWIR 单模式光谱学的准确率 26%、10%和 9%。我们得出结论,多模式光谱学和数据融合分析具有准确评估鱼类鱼片新鲜度和预测货架期的潜力,并建议在未来扩大到更多种类的研究。

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