Front-Face Fluorescence Spectroscopy and Feature Selection for Fruit Classification Based on N-CovSel Method

Lorraine Latchoumane, Karine Alary, J. Minier, F. Davrieux, R. Lugan, M. Chillet, J. Roger
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引用次数: 2

Abstract

Internal disorder is a major problem in fruit production and is responsible for considerable economical losses. Symptoms are not externally visible, making it difficult to assess the problem. In recent years, 3D fluorescence spectroscopy has been used to reveal features of interest in agronomical field, such as plant stress and plant infection. Such technique could provide useful information regarding changes that occur at the tissue level, in order to distinguish spectral differences between healthy and disordered fruits. This paper introduces the use of the new three-way feature extraction N-CovSel method, compared to the commonly used N-PLS-DA method. These approaches were used upon front-face fluorescence spectra of 27 fruit pulp and skin samples, by analysing excitation wavelengths ranging from 250 to 650 nm, and emission wavelengths varying from 290 to 800 nm. N-CovSel method was applied to identify the most relevant features on: 1) excitation-emission wavelength couples, 2) excitation wavelengths whatever the emission wavelengths and 3) emission wavelengths whatever the excitation wavelengths. Discriminant analysis of the selected features were performed across classes. The constructed models provided key features to differentiate healthy fruits from disordered ones. These results highlighted the capability of N-CovSel method to extract the most fitted features for enhanced fruit classification using front-face fluorescence spectroscopy. They revealed characteristic fluorophores involved in the structural modifications generated by the physiological disorder studied. This paper provides preliminary results concerning the suitability of N-CovSel method for the desired application. Further investigations could be performed on intact fresh fruits in a non-destructive way, allowing an earlier and faster detection of the internal disorder for in-field or industrial applications.
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基于N-CovSel方法的正面荧光光谱及特征选择
内部失序是水果生产中的主要问题,造成了相当大的经济损失。症状从外部看不出来,因此很难评估问题。近年来,三维荧光光谱技术已被广泛应用于揭示植物胁迫和侵染等农学研究领域。这种技术可以提供有关发生在组织水平上的变化的有用信息,以便区分健康和紊乱水果之间的光谱差异。本文介绍了采用新的三向特征提取N-CovSel方法,并与常用的N-PLS-DA方法进行了比较。这些方法应用于27个果肉和果皮样品的正面荧光光谱,通过分析250 ~ 650 nm的激发波长和290 ~ 800 nm的发射波长。采用N-CovSel方法识别了以下三个方面的最相关特征:1)激发-发射波长对;2)激发波长与发射波长无关;3)发射波长与激发波长无关。对所选特征进行跨类别的判别分析。所构建的模型提供了区分健康水果和不健康水果的关键特征。这些结果表明,N-CovSel方法能够提取最适合的特征,用于增强正面荧光光谱的水果分类。他们揭示了与所研究的生理障碍产生的结构修饰有关的特征荧光团。本文提供了N-CovSel方法在理想应用中的适用性的初步结果。进一步的研究可以在完整的新鲜水果上进行,以一种非破坏性的方式,允许更早、更快地检测内部紊乱,用于现场或工业应用。
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