School of Electrical and Information Engineering, Jiangsu University, Zhenjiang, PR China.
J Food Sci. 2024 Sep;89(9):6005-6015. doi: 10.1111/1750-3841.17259. Epub 2024 Aug 13.
The heavy metal content in edible oils is intricately associated with their suitability for human consumption. In this study, standard soybean oil was used as a sample to quantify the specified concentration of heavy metals using microwave sensing technique. In addition, an attention-based deep residual neural network model was developed as an alternative to traditional modeling methods for predicting heavy metals in edible oils. In the process of microwave data processing, this work continued to discuss the impact of depth on convolutional neural networks. The results demonstrated that the proposed attention-based residual network model outperforms all other deep learning models in all metrics. The performance of this model was characterized by a coefficient of determination (R) of 0.9605, a relative prediction deviation (RPD) of 5.0479, and a root mean square error (RMSE) of 3.1654 mg/kg. The research findings indicate that the combination of microwave detection technology and chemometrics holds significant potential for assessing heavy metal levels in edible oils.
食用油中的重金属含量与其是否适合人类食用密切相关。本研究以标准大豆油为样品,采用微波传感技术定量检测重金属的特定浓度。此外,还开发了基于注意力的深度残差神经网络模型,作为传统建模方法的替代方法,用于预测食用油中的重金属。在微波数据处理过程中,本工作继续讨论了深度对卷积神经网络的影响。结果表明,所提出的基于注意力的残差网络模型在所有指标上均优于所有其他深度学习模型。该模型的性能表现为决定系数(R)为 0.9605,相对预测偏差(RPD)为 5.0479,均方根误差(RMSE)为 3.1654mg/kg。研究结果表明,微波检测技术与化学计量学的结合在评估食用油中重金属含量方面具有重要潜力。
