Melanoma Classification Approach with Deep Learning-Based Feature Extraction Models

2021 XLVII Latin American Computing Conference (CLEI) Pub Date : 2021-10-25 DOI:10.1109/CLEI53233.2021.9639944

Alan R. Santos, K. Aires, Francisco das Chagas Imperes Filho, L. P. Sousa, R. Veras, L. D. S. B. Neto, Antônio L. de M. Neto

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引用次数: 2

Abstract

Melanoma is considered the worst type of skin cancer. The early diagnosis of this disease is still a complex task due to many variables that must be analyzed. Because of this, new methodologies are becoming common in the literature due to the good results obtained. Convolutional Neural Networks are Deep Learning techniques capable of providing effective solutions in the classification of medical images. In this sense, this work developed a disease detection system using AlexNet and VGG-F convolutional architectures, trained with images of skin lesions to create feature descriptors, not classifiers. Other conventional descriptors of skin lesions were used to assess the quality of data obtained from the last layers of convolutional architectures. Data from all feature extraction processes were submitted to the conventional classifiers Support Vector Machine, Multilayer Perceptron, and K-Nearest Neighbor. The results obtained in the approach show that the feature extracting models are viable and can offer a more accurate melanoma diagnosis possibility. The VGG-F architecture obtained the best result, with an accuracy of 91.54% and a precision of 91.64% given by the K-Nearest Neighbor. It is possible to see that this result highlights the quality of data in convolutional architectures and can provide a sense of further research.

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基于深度学习特征提取模型的黑色素瘤分类方法

黑色素瘤被认为是最严重的一种皮肤癌。由于有许多必须分析的变量，这种疾病的早期诊断仍然是一项复杂的任务。正因为如此，由于获得了良好的结果，新的方法在文献中变得越来越普遍。卷积神经网络是一种深度学习技术，能够为医学图像分类提供有效的解决方案。从这个意义上说，这项工作开发了一个疾病检测系统，使用AlexNet和VGG-F卷积架构，使用皮肤病变图像进行训练，以创建特征描述符，而不是分类器。使用其他传统的皮肤病变描述符来评估从卷积架构的最后一层获得的数据质量。所有特征提取过程的数据被提交给传统的分类器支持向量机、多层感知机和k近邻。结果表明，该方法的特征提取模型是可行的，可以提供更准确的黑色素瘤诊断可能性。VGG-F结构获得了最好的结果，精度为91.54%，k近邻给出的精度为91.64%。可以看出，这一结果突出了卷积架构中数据的质量，并可以提供进一步研究的感觉。

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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2021 XLVII Latin American Computing Conference (CLEI)

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