Improved Skin Lesion Detection and Segmentation by Fusing Texture and Geometric Features

Q1 Engineering

International Journal of Applied Engineering Research (Netherlands) Pub Date : 2020-12-30 DOI:10.37622/IJAER/15.12.2020.1116-1121

Nidhi Bansal, S. Sridhar, P. L. D. Priya

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引用次数: 3

Abstract

Melanoma is the greatest carcinogenic skin cancer. In the last years, the prevalence degree of melanoma has risen by 50 percent. There is a necessity to provide an onscreen system for the diagnosis of skin lesions. The system will reduce the unnecessary biopsy and the cancer can be diagnosed at an early stage. In this paper a framework is proposed for the automated skin lesion detection in an input image. A segmentation algorithm based on texture is used to classify normal skin class or lesion class. Also, fusion of texture and geometric features is presented in this work. SVM classifier is trained to identify lesions as malignant melanoma or benign lesion. The system yielded an efficiency of 84.7%, 89.4% and 83.5% for Haralick features, features given by Soh and Clausi and Histogram based features respectively. The fusion based on texture and geometric features enhanced the performance of the system. The evaluated performance metrics are better than the previous methods. The improved system helps diagnose at an early stage reducing the mortality rate.

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基于纹理和几何特征融合的改进皮肤损伤检测与分割

黑色素瘤是最大的致癌皮肤癌。在过去的几年里，黑色素瘤的患病率上升了50%。有必要提供一种用于诊断皮肤病变的屏幕系统。该系统将减少不必要的活组织检查，并且可以在早期诊断癌症。本文提出了一种用于输入图像中皮肤损伤自动检测的框架。采用基于纹理的分割算法对正常皮肤类别和病变类别进行分类。此外，本文还提出了纹理与几何特征的融合。训练SVM分类器识别病变为恶性黑色素瘤或良性病变。该系统对Haralick特征、Soh和Clausi给出的特征和基于直方图的特征的效率分别为84.7%、89.4%和83.5%。基于纹理和几何特征的融合增强了系统的性能。评估后的性能指标优于先前的方法。改进后的系统有助于早期诊断，降低死亡率。

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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International Journal of Applied Engineering Research (Netherlands) Engineering-Engineering (all)

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