Identification and discrimination of olive oil adulteration by oblique-incidence reflectivity difference method

IF 4 2区农林科学 Q2 CHEMISTRY, APPLIED

Journal of Food Composition and Analysis Pub Date : 2025-04-25 DOI:10.1016/j.jfca.2025.107692

Shanzhe Zhang , Yiran Hu , Xiaorong Sun , Cuiling Liu , Sining Yan , Chuanzhi Jiang , Xinpeng Zhou , Xuecong Liu , Kun Zhao

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引用次数: 0

Abstract

Adulteration identification of olive oil is an essential issue in the field of food-related research. In this work, oblique-incidence reflectivity difference (OIRD) method was used to recognize adulteration edible oils in olive oil. In order to reduce the impact of errors, the real and imaginary signals of OIRD were averaged. For the single edible oil adulterated in olive oil, Transformer model, Sparrow Search Algorithm-Hybrid Kernel Extreme Learning Machine (SSA-ELM) model and extreme gradient boosting (XGBoost) model were used to establish analysis and discrimination model. Experimental suggested that all models exhibited the high prediction accuracy with determination coefficients (R²) of 0.99. Moreover, and Random Forest (RF) model can not only identify the type of adulterated olive oil, but also quantitatively analyze adulterated edible oils in olive oil, with a R² of 0.98. OIRD method provides a good strategy for solving practical problems in identifying edible oil adulteration.

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斜入射反射率差法鉴别橄榄油掺假

橄榄油的掺假鉴定是食品研究领域的一个重要问题。本文采用斜入射反射率差法（OIRD）识别橄榄油中掺假的食用油。为了减小误差的影响，对OIRD的实、虚信号进行平均。针对橄榄油中掺杂的单一食用油，采用变压器模型、麻雀搜索算法-混合核极限学习机（SSA-ELM）模型和极限梯度提升（XGBoost）模型建立分析判别模型。实验表明，各模型预测精度较高，决定系数（R2）为0.99。随机森林（Random Forest， RF）模型不仅可以识别掺假橄榄油的类型，还可以定量分析橄榄油中掺假的食用油，R2为0.98。OIRD方法为解决食用油掺假鉴定中的实际问题提供了良好的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Food Composition and Analysis 工程技术-食品科技

CiteScore

6.20

自引率

11.60%

发文量

601

审稿时长

53 days

期刊介绍： The Journal of Food Composition and Analysis publishes manuscripts on scientific aspects of data on the chemical composition of human foods, with particular emphasis on actual data on composition of foods; analytical methods; studies on the manipulation, storage, distribution and use of food composition data; and studies on the statistics, use and distribution of such data and data systems. The Journal''s basis is nutrient composition, with increasing emphasis on bioactive non-nutrient and anti-nutrient components. Papers must provide sufficient description of the food samples, analytical methods, quality control procedures and statistical treatments of the data to permit the end users of the food composition data to evaluate the appropriateness of such data in their projects. The Journal does not publish papers on: microbiological compounds; sensory quality; aromatics/volatiles in food and wine; essential oils; organoleptic characteristics of food; physical properties; or clinical papers and pharmacology-related papers.