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中国精品科技期刊2020
崔程,刘翠玲,孙晓荣,等. 基于近红外高光谱成像技术的花生冻伤检测方法研究[J]. 食品工业科技,2024,45(6):226−233. doi: 10.13386/j.issn1002-0306.2023030252.
引用本文: 崔程,刘翠玲,孙晓荣,等. 基于近红外高光谱成像技术的花生冻伤检测方法研究[J]. 食品工业科技,2024,45(6):226−233. doi: 10.13386/j.issn1002-0306.2023030252.
CUI Cheng, LIU Cuiling, SUN Xiaorong, et al. Peanut Frostbite Detection Method Based on Near Infrared Hyperspectral Imaging Technology[J]. Science and Technology of Food Industry, 2024, 45(6): 226−233. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023030252.
Citation: CUI Cheng, LIU Cuiling, SUN Xiaorong, et al. Peanut Frostbite Detection Method Based on Near Infrared Hyperspectral Imaging Technology[J]. Science and Technology of Food Industry, 2024, 45(6): 226−233. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023030252.

基于近红外高光谱成像技术的花生冻伤检测方法研究

Peanut Frostbite Detection Method Based on Near Infrared Hyperspectral Imaging Technology

  • 摘要: 花生在收获、运输、储存和加工过程中易受到温、湿度变化导致冻伤现象,从而影响花生及其制品的品质,为探索花生冻伤机理并提高冻伤花生检测效率,本文采用近红外高光谱技术研究花生冻伤无损检测可行性、基于特征变量筛选的判别模型优化方法以及花生冻伤机理。实验研究了变量标准化(Standard Normalized Variate,SNV)、多元散射校正(Multiplicative Scatter Correction,MSC)、Savitzky-Golag(SG)平滑以及SG平滑-SNV和SG平滑-MSC五种预处理方法对原始数据的影响,随后分别采用竞争自适应重加权法(competitive adapative reweighted sampling,CARS)、随机蛙跳(random frog,RF)、变量重要性投影(variable importance in projection,VIP)、连续投影算法(successive projections algorithm,SPA)、蒙特卡洛无信息变量消除(Monte Carlo uninformative variable elimination,MC-UVE)、迭代保留信息变量(Iteration retention information variable,IRIV)、变量组合种群分析-迭代保留信息变量(Variable combination population analysis-Iteration retention information variable,VCPA-IRIV)和变量组合种群分析-遗传算法(Variable combination population analysis-Genetic Algorithm,VCPA-GA)8种变量选择方法筛选得到与花生冻伤相关的特征波长,通过建立支持向量机(Support Vector Machine,SVM)选用达到判别准确率阈值为90%的特征波长作为花生冻伤特征波长。结果表明,基于近红外高光谱成像技术的花生冻伤检测总体可行,且精度较高,所有变量选择方法均能有效筛选与冻伤相关的特征波长,其中VCPA-GA算法选择了最少的7个特征波长,仅占数据集所有波长的3.125%,训练集和测试集准确率分别为91.60%和90.12%。经过筛选得出的冻伤特征波长体现了油酸和蛋白质的信息,验证了过低的温度会导致花生中油酸含量下降和蛋白质含量上升。本研究为花生冻伤快速无损检测提供了可参考的理论依据和技术支撑。

     

    Abstract: Peanuts were susceptible to frost damage during harvesting, transportation, storage, and processing due to temperature and humidity changes, which could affect the quality of peanuts and their products. In order to explore the mechanism of peanut frost damage and improve the detection efficiency of frost-damaged peanuts, this study used near-infrared hyperspectral technology to study the feasibility of non-destructive detection of peanut frost damage, optimization methods based on feature variable screening discriminant models, and the mechanism of peanut frost damage. The effects of five preprocessing methods, including standard normalized variate (SNV), multiplicative scatter correction (MSC), Savizkg-Golag (SG) smoothing, SG smoothing-SNV, and SG smoothing-MSC, on the original data were experimentally studied. Then, eight variable selection methods, including competitive adaptive reweighted sampling (CARS), random frog (RF), variable importance in projection (VIP), successive projections algorithm (SPA), Monte Carlo uninformative variable elimination (MC-UVE), iteration retention information variable (IRIV), variable combination population analysis-iteration retention information variable (VCPA-IRIV), and variable combination population analysis-genetic algorithm (VCPA-GA), were used to screen the feature wavelengths related to peanut frost damage. Support vector machine (SVM) was used to select the feature wavelengths that reached the discrimination accuracy threshold of 90% as the feature wavelengths of peanut frost damage. The results showed that the detection of peanut frost damage based on near-infrared hyperspectral imaging technology was generally feasible and had high accuracy. All variable selection methods can effectively screen the feature wavelengths related to frost damage. Among them, the VCPA-GA algorithm selected the least 7 feature wavelengths, accounting for only 3.125% of all wavelengths in the dataset. The accuracy of the training set and the test set were 91.60% and 90.12%, respectively. The selected frostbite characteristic wavelength reflects information about oleic acid and protein, verifying that excessively low temperatures can lead to a decrease in oleic acid content and an increase in protein content in peanuts. This study provides a theoretical basis and technical support for the rapid non-destructive detection of peanut frost damage.

     

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