{"title":"Large-Scale Insect Pest Image Classification","authors":"Thanh-Nghi Doan","doi":"10.12720/jait.14.2.328-341","DOIUrl":null,"url":null,"abstract":"— One of the main issues with agricultural production is insect attack, which leads to poor crop quality. Farmers, however, have a complicated and time-consuming task in detecting and categorizing insects. Therefore, research on an effective system for image-based automated insect classification is crucial. The conventional “softmax” function is utilized to determine the category for new image occurrences and minimize “cross-entropy” loss in the bulk of current research, which focuses on employing deep convolutional neural networks to categorize insect images. This paper presents a novel method for large-scale insect pest image classification by combining fine-tuning EfficientNets and Power Mean Support Vector Machine (SVM). First, EfficientNet models are fine-tuned and re-trained on new insect pest image datasets. The retrieved features from EfficientNet models are then utilized to create a machine learning classifier. In the network’s classification stage, the traditional “softmax” function is substituted with a non-linear classifier, Power Mean SVM. As a result, rather than “cross-entropy loss,” the training process focuses on reducing “margin-based loss.” Several benchmark insect image datasets were used to evaluate our proposed method. According to the numerical results, our method outperforms other cutting-edge methods for large-scale insect pest image categorization. With fine-tuning EfficientNets and Power Mean SVM, the classification accuracy of the proposed method for the Xie24, D0, and IP102 large insect pest datasets is 99%, 99%, and 72.31%, respectively. To our knowledge, these are the best performing image classification results for these datasets.","PeriodicalId":0,"journal":{"name":"","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.12720/jait.14.2.328-341","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 2
Abstract
— One of the main issues with agricultural production is insect attack, which leads to poor crop quality. Farmers, however, have a complicated and time-consuming task in detecting and categorizing insects. Therefore, research on an effective system for image-based automated insect classification is crucial. The conventional “softmax” function is utilized to determine the category for new image occurrences and minimize “cross-entropy” loss in the bulk of current research, which focuses on employing deep convolutional neural networks to categorize insect images. This paper presents a novel method for large-scale insect pest image classification by combining fine-tuning EfficientNets and Power Mean Support Vector Machine (SVM). First, EfficientNet models are fine-tuned and re-trained on new insect pest image datasets. The retrieved features from EfficientNet models are then utilized to create a machine learning classifier. In the network’s classification stage, the traditional “softmax” function is substituted with a non-linear classifier, Power Mean SVM. As a result, rather than “cross-entropy loss,” the training process focuses on reducing “margin-based loss.” Several benchmark insect image datasets were used to evaluate our proposed method. According to the numerical results, our method outperforms other cutting-edge methods for large-scale insect pest image categorization. With fine-tuning EfficientNets and Power Mean SVM, the classification accuracy of the proposed method for the Xie24, D0, and IP102 large insect pest datasets is 99%, 99%, and 72.31%, respectively. To our knowledge, these are the best performing image classification results for these datasets.
-农业生产的主要问题之一是虫害,这导致作物质量差。然而,农民在检测和分类昆虫方面有一项复杂而耗时的任务。因此,研究一种有效的基于图像的昆虫自动分类系统至关重要。在目前的大部分研究中,传统的“softmax”函数被用来确定新图像出现的类别,并最小化“交叉熵”损失,这些研究主要是利用深度卷积神经网络对昆虫图像进行分类。本文提出了一种结合精细化效率网络和功率平均支持向量机(Power Mean Support Vector Machine, SVM)的大规模害虫图像分类方法。首先,在新的害虫图像数据集上对EfficientNet模型进行微调和重新训练。然后利用从EfficientNet模型中检索到的特征来创建机器学习分类器。在网络的分类阶段,将传统的softmax函数替换为非线性分类器Power Mean SVM。因此,训练过程侧重于减少“基于边际的损失”,而不是“交叉熵损失”。使用几个基准昆虫图像数据集对我们提出的方法进行了评估。数值结果表明,该方法优于其他先进的大规模害虫图像分类方法。通过对EfficientNets和Power Mean SVM进行微调,该方法对Xie24、D0和IP102大型害虫数据集的分类准确率分别为99%、99%和72.31%。据我们所知,这些是这些数据集表现最好的图像分类结果。