榛子的Cimiciato缺陷检测：应用于x射线图像的CNN模型

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY

Journal of Agriculture and Food Research Pub Date : 2025-06-03 DOI:10.1016/j.jafr.2025.102072

Andrea Vitale , Matteo Giaccone , Antonio Gaetano Napolitano , Flavia de Benedetta , Laura Gargiulo , Giacomo Mele

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引用次数: 0

摘要

榛子是一种越来越重要的重要作物，特别是对糖果工业。虫害影响榛子的质量，需要在采收后根据工业质量标准进行选择，而工业质量标准往往超过官方规定。目前用于鉴定昆虫损害（cimiciato）的方法通常依赖于目视检查，外部成像或需要破坏性测试。本研究比较了12种不同的预训练卷积神经网络（CNN）架构在榛子仁x射线片上的应用，用于榛子仁缺陷的自动检测。通过广泛的训练和验证过程，随后在单独的数据集上进行测试，InceptionV3架构在所有性能指标（包括准确性、灵敏度和精度）上表现出最佳的总体平衡，而Xception则表现出优越的特异性和最低的假阳性率。轻量级模型（如SqueezeNet和ShuffleNet）提供了快速和资源高效的训练，尽管在分类准确性方面有适度的权衡。相比之下，像Inception-ResNet-V2和Xception这样的更深层次的架构，虽然计算要求很高，但实现了更强的鲁棒性和泛化能力。我们的研究结果表明，一些CNN架构结合x射线成像可以有效地用于榛子工业的可靠和高效的无损选择方法，有可能改善产品质量控制并最大限度地减少与昆虫损害相关的损失。

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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Cimiciato defect detection in hazelnuts: CNN models applied on X-ray images

Hazelnuts are a significant crop with an increasing importance, especially for confectionery industry. Insect damages affect hazelnut quality, requiring post-harvest selection based on industrial quality standards which often exceed official regulations. Currently used methods for identifying insect damages (cimiciato) often rely on visual inspection, external imaging or require destructive testing.

This study compared twelve different pretrained Convolutional Neural Network (CNN) architectures applied on hazelnut kernels X-ray radiographs for the automated detection of cimiciato defects.

Through an extensive training and validation process, followed by testing on a separate dataset, InceptionV3 architecture showed the best overall balance across all performance metrics, including accuracy, sensitivity, and precision, while Xception demonstrated superior specificity and the lowest false positive rate. Lightweight models such as SqueezeNet and ShuffleNet provided fast and resource-efficient training, though with moderate trade-offs in classification accuracy. In contrast, deeper architectures like Inception-ResNet-V2 and Xception, while computationally demanding, achieved greater robustness and generalization capability.

Our findings suggest that some CNN architectures combined with X-ray imaging could effectively be employed in a reliable and efficient non-destructive selection method for the hazelnut industry, potentially improving product quality control and minimizing losses associated with insect damages.

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