AI Article Synopsis
- Measuring chemical composition in soybeans is typically tedious and requires calibration curves, but this study explores a new method using excitation emission matrix (EEM) combined with dimensionality reduction.
- The researchers analyzed EEMs from 34 soybean samples and applied two methods—principal component analysis (PCA) and t-distributed Stochastic Neighbor Embedding (t-SNE)—to visualize chemical content.
- The results showed that t-SNE provided over 90% classification accuracy for key chemical components, suggesting it could simplify and enhance the screening process for soybeans, especially regarding isoflavone content.
Article Abstract
Measuring the chemical composition in soybeans is time-consuming and laborious, and even simple near-infrared sensors generally require the creation of calibration curves before application. In this study, a new screening method for soybeans without calibration curves was investigated by combining the excitation emission matrix (EEM) and dimensionality reduction analysis. The EEMs of 34 soybean samples were measured, and representative chemical contents including crude protein, crude oil and isoflavone contents were measured by chemical analysis. Two methods of dimensionality reduction: principal component analysis (PCA) and t-distributed Stochastic Neighbor Embedding (t-SNE) were applied on the EEM data to obtain two-dimensional plots, which were divided into two regions with large or small amount of each chemical components. To classify the large or small levels of each of the chemical composition, machine learning classification models were constructed on the two-dimensional plots after dimensionality reduction. As a result, the classification accuracy was higher in t-SNE than in the combinations of PC1 and PC2 from PCA. Furthermore, in t-SNE, the classification accuracy reached over 90% for all the chemical components. From these results, t-SNE dimensionality reduction on the soybean EEM has the potential for easy and accurate screening of soybeans especially based on isoflavone contents.
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| http://dx.doi.org/10.1016/j.saa.2024.124785 | DOI Listing |
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