Applications of hyperspectral imaging technology in the food industry
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Publisher
Springer Science and Business Media LLC
Link
https://www.nature.com/articles/s44287-024-00033-w.pdf
Reference131 articles.
1. Hassoun, A. et al. Food quality 4.0: from traditional approaches to digitalized automated analysis. J. Food Eng. 337, 111216 (2023). This report discusses quality inspection techniques that are commonly used in the food industry and their fundamental principles.
2. Zhao, Y. W. & Talha, M. Evaluation of food safety problems based on the fuzzy comprehensive analysis method. Food Sci. Technol. 42, e47321 (2022).
3. Zhang, W. L. & Rhim, J. W. Recent progress in konjac glucomannan-based active food packaging films and property enhancement strategies. Food Hydrocoll. 128, 107572 (2022).
4. Tao, Y., Bao, J. Q., Liu, Q., Liu, L. & Zhu, J. Q. Deep residual network enabled smart hyperspectral image analysis and its application to monitoring moisture, size distribution and contents of four bioactive compounds of granules in the fluid-bed granulation process of Guanxinning tablets. Spectrochim. Acta Part. A 287, 122083 (2023).
5. Liang, J. et al. Non-destructive discrimination of homochromatic foreign materials in cut tobacco based on VIS-NIR hyperspectral imaging. J. Sci. Food Agric. 103, 4545–4552 (2023).
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