照明模式和样品定位对利用近红外光谱检测苹果霉核病的影响

IF 5.3 2区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY Food and Bioprocess Technology Pub Date : 2024-05-24 DOI:10.1007/s11947-024-03430-z
Hanlin Li, Nan Xiao, Tong Sun, Dong Hu
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引用次数: 0

摘要

为提高苹果霉核病的检测精度,采用了近红外光谱技术进行快速、无损检测。利用光学模拟方法研究了照明模式和样品定位对检测效果的影响。利用支持向量机(SVM)和粒子群优化-最小二乘支持向量机(PSO-LSSVM)开发了霉菌核心的识别模型,从而可以根据这些模型的结果确定最佳照明模式。随后,建立了三种样本定位中霉菌核心的判别模型,并确定了最佳样本定位。最后,采用区间组合优化(ICO)-竞争性自适应加权采样(CARS)方法筛选出最佳照明模式和样本定位下的霉核特征波长。结果表明,90° + 180°组合照明模式是检测苹果霉核的最佳照明模式。由 PSO-LSSVM 与归一化 + 高斯滤波平滑 + 去趋势波动分析(NOR + GFS + Detrend)建立的模型性能最佳;该模型在预测集中的灵敏度、特异度和准确度分别为 93.75%、100% 和 96.83%。T1 是 90° + 180° 组合照明模式下的最佳样本定位,最佳 SVM 模型的灵敏度、特异度和准确度分别为 91.89%、94.44% 和 93.15%。经过 ICO-CARS 筛选后,建模变量数量仅占原始波长变量的 1.6%,有效简化了分类模型。该研究为苹果霉核的快速无损、高精度检测提供了技术支持。
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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Influence of Lighting Pattern and Sample Positioning on Detection of Moldy Core Disease in Apples by NIR Spectroscopy

To enhance the precision of detecting moldy core disease in apples, near-infrared (NIR) spectroscopy was employed for quickly and non-destructive detection. The impact of lighting patterns and sample positioning on detection efficacy was investigated, with optical simulation methods being utilized. Discrimination models for moldy core were developed using support vector machines (SVM) and particle swarm optimization-least squares support vector machine (PSO-LSSVM), allowing for the optimal lighting pattern to be determined based on the results of these models. After that, the discrimination models of moldy core in the three sample positionings were developed, and the optimal sample positioning was determined. Finally, interval combination optimization (ICO)-competitive adaptive reweighted sampling (CARS) method was used to screen the feature wavelengths for moldy core under the optimal lighting pattern and sample positioning. The results show that 90° + 180° combined lighting pattern is the optimal lighting pattern for detection of moldy core in apples. The model built by PSO-LSSVM with normalization + Gaussian filter smoothing + detrended fluctuation analysis (NOR + GFS + Detrend) has the best performance; the sensitivity, specificity, and accuracy of the model in prediction set are 93.75%, 100%, and 96.83%, respectively. T1 is the optimal sample positioning under the 90° + 180° combined lighting pattern, and the sensitivity, specificity, and accuracy of the best SVM model are 91.89%, 94.44%, and 93.15%, respectively. After ICO-CARS screening, the number of modeling variables accounts for only 1.6% of the original wavelength variables, effectively simplifying the classification model. This study provides technical support for the rapid non-destructive and high-precision detection of moldy core in apples.

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来源期刊
Food and Bioprocess Technology
Food and Bioprocess Technology 农林科学-食品科技
CiteScore
9.50
自引率
19.60%
发文量
200
审稿时长
2.8 months
期刊介绍: Food and Bioprocess Technology provides an effective and timely platform for cutting-edge high quality original papers in the engineering and science of all types of food processing technologies, from the original food supply source to the consumer’s dinner table. It aims to be a leading international journal for the multidisciplinary agri-food research community. The journal focuses especially on experimental or theoretical research findings that have the potential for helping the agri-food industry to improve process efficiency, enhance product quality and, extend shelf-life of fresh and processed agri-food products. The editors present critical reviews on new perspectives to established processes, innovative and emerging technologies, and trends and future research in food and bioproducts processing. The journal also publishes short communications for rapidly disseminating preliminary results, letters to the Editor on recent developments and controversy, and book reviews.
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