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皮肤癌的区域提取和分类:深度卷积神经网络特征融合与降维的异构框架。

Region Extraction and Classification of Skin Cancer: A Heterogeneous framework of Deep CNN Features Fusion and Reduction.

机构信息

College of Computer and Information Sciences, Prince Sultan University, Riyadh, 11586, Saudi Arabia.

Department of Computer Science and Engineering, HITEC Universit, Museum Road, Taxila, Pakistan.

出版信息

J Med Syst. 2019 Jul 20;43(9):289. doi: 10.1007/s10916-019-1413-3.

DOI:10.1007/s10916-019-1413-3
PMID:31327058
Abstract

Cancer is one of the leading causes of deaths in the last two decades. It is either diagnosed malignant or benign - depending upon the severity of the infection and the current stage. The conventional methods require a detailed physical inspection by an expert dermatologist, which is time-consuming and imprecise. Therefore, several computer vision methods are introduced lately, which are cost-effective and somewhat accurate. In this work, we propose a new automated approach for skin lesion detection and recognition using a deep convolutional neural network (DCNN). The proposed cascaded design incorporates three fundamental steps including; a) contrast enhancement through fast local Laplacian filtering (FlLpF) along HSV color transformation; b) lesion boundary extraction using color CNN approach by following XOR operation; c) in-depth features extraction by applying transfer learning using Inception V3 model prior to feature fusion using hamming distance (HD) approach. An entropy controlled feature selection method is also introduced for the selection of the most discriminant features. The proposed method is tested on PH2 and ISIC 2017 datasets, whereas the recognition phase is validated on PH2, ISBI 2016, and ISBI 2017 datasets. From the results, it is concluded that the proposed method outperforms several existing methods and attained accuracy 98.4% on PH2 dataset, 95.1% on ISBI dataset and 94.8% on ISBI 2017 dataset.

摘要

在过去的二十年中,癌症是导致死亡的主要原因之一。它要么被诊断为恶性,要么被诊断为良性——这取决于感染的严重程度和当前的阶段。传统的方法需要由专家皮肤科医生进行详细的身体检查,这既耗时又不准确。因此,最近引入了几种计算机视觉方法,这些方法具有成本效益,并且在一定程度上准确。在这项工作中,我们提出了一种使用深度卷积神经网络(DCNN)的皮肤病变检测和识别的新自动化方法。所提出的级联设计包含三个基本步骤,包括:a)通过快速局部拉普拉斯滤波(FlLpF)沿 HSV 颜色变换进行对比度增强;b)使用 XOR 操作遵循颜色 CNN 方法进行病变边界提取;c)通过在特征融合之前使用汉明距离(HD)方法应用迁移学习对初始 V3 模型进行深入的特征提取。还引入了一种基于熵的特征选择方法,用于选择最具判别力的特征。该方法在 PH2 和 ISIC 2017 数据集上进行了测试,而识别阶段则在 PH2、ISBI 2016 和 ISBI 2017 数据集上进行了验证。从结果可以得出结论,与几种现有方法相比,该方法表现出色,在 PH2 数据集上的准确率为 98.4%,在 ISBI 数据集上的准确率为 95.1%,在 ISBI 2017 数据集上的准确率为 94.8%。

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