Exploration of fibro-glandular region and breast density classification of digitised mammograms using least square support vector machine

IF 0.7 Q4 ENGINEERING, BIOMEDICAL
M. Vijaya Madhavi, T. Christy Bobby
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引用次数: 0

Abstract

Breast tissue density is one of the significant risk-marker for identification of breast cancer in early stage. In the proposed work, fibro-glandular region is explored and classification of breast density as dense and non-dense is performed. Image pre-processing is performed to improve the image quality followed by segmentation of breast region to obtain region of interest (RoI). For the obtained RoI, pseudo colouring is performed to improve image acuity accompanied by R-image extraction and post-processing to obtain fibro-glandular breast tissues. Area, histogram, fractal, grey-level co-occurrence matrix and grey-level run length matrix features are derived from both fibro-glandular and RoI regions and ratiometric value of features are computed. Further, mutual-information-based feature ranking algorithm is applied on the derived ratiometric values and the significant features are identified. These significant features when fed to least square-support vector machine produced average classification accuracy (%) of 86.1 ± 6.03 for mini-MIAS and 82.3 ± 4.78 for CBIS-DDSM database.
基于最小二乘支持向量机的数字化乳房x光片纤维腺区探查及乳腺密度分类
乳腺组织密度是早期识别乳腺癌的重要风险指标之一。在提出的工作中,探讨了纤维腺区,并将乳腺密度分为致密和非致密。首先对图像进行预处理,提高图像质量,然后对乳房区域进行分割,获得感兴趣区域(RoI)。对得到的RoI进行伪着色,提高图像清晰度,同时进行r图像提取和后处理,得到纤维腺状乳腺组织。分别从纤维腺体和RoI区域导出面积、直方图、分形、灰度共生矩阵和灰度行程矩阵特征,并计算特征的比值值。在此基础上,采用基于互信息的特征排序算法,识别出显著特征。将这些显著特征输入到最小二乘支持向量机中,mini-MIAS数据库的平均分类准确率为86.1±6.03,CBIS-DDSM数据库的平均分类准确率为82.3±4.78。
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来源期刊
CiteScore
1.60
自引率
0.00%
发文量
73
期刊介绍: IJBET addresses cutting-edge research in the multi-disciplinary area of biomedical engineering and technology. Medical science incorporates scientific/technological advances combining to produce more accurate diagnoses, effective treatments with fewer side effects, and improved ability to prevent disease and provide superior-quality healthcare. A key field here is biomedical engineering/technology, offering a synthesis of physical, chemical, mathematical and computational sciences combined with engineering principles to enhance R&D in biology, medicine, behaviour, and health. Topics covered include Artificial organs Automated patient monitoring Advanced therapeutic and surgical devices Application of expert systems and AI to clinical decision making Biomaterials design Biomechanics of injury and wound healing Blood chemistry sensors Computer modelling of physiologic systems Design of optimal clinical laboratories Medical imaging systems Sports medicine.
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