Automatic Diagnosing of Suspicious Lesions in Digital Mammograms

Elmoufidi, Abdelali; Fahssi, Khalid El; Andaloussi, Said Jai; Sekkaki, Abderrahim; Quellec, Gwénolé; Lamard, Mathieu; Cazuguel, Guy

doi:10.14569/ijacsa.2016.070568

Cited by 5 publications

(2 citation statements)

References 24 publications

(28 reference statements)

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“…A proposal provided by [23] uses the Bayesian techniques with a Markovian random field to partition mammogram images into three diverse regions, the pectoral muscle, the fatty, and the fibroglandular regions. Other approaches were using the LBP, the K-means, SVM, and the GLCM algorithms for identifying the ROI regions from mammogram images like in [24][25][26]. e proposals presented by [2][3][4] introduce adaptive thresholding methods based on multiresolution for detecting suspicious lesions in mammogram images.…”

Section: Literature Review and Related Workmentioning

confidence: 99%

A Diagnostic Model of Breast Cancer Based on Digital Mammogram Images Using Machine Learning Techniques

Al-Fahaidy

Al-Fuhaidi

AL-Darouby

et al. 2022

Applied Computational Intelligence and Soft Computing

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Breast cancer disease is one of the most recorded cancers that lead to morbidity and maybe death among women around the world. Recent research statistics have exposed that one from 8 females in the USA and one from 10 females in Europe are contaminated by breast cancer. The challenge with this disease is how to develop a relaxed and fast diagnosing method. One of the attractive ways of early breast cancer diagnosis is based on the mammogram images analysis of the breast using a computer-aided diagnosing (CAD) tool. This paper firstly aimed to propose an efficient method for diagnosing tumors based on mammogram images of breasts using a machine learning approach. Secondly, this paper aimed to the development of a CAD software program for breast cancer diagnosing based on the proposed method in the first step. The followed step-by-step procedure of the proposed method is performed by passing the Mammographic Image Analysis Society (MIAS) through five steps of image preprocessing, image segmentation using seeded region growing (SRG) algorithm, feature extraction using different feature’s extraction classes, and important and effectiveness feature selection using the Sequential Forward Selection (SFS) technique, and finally, the Support Vector Machine (SVM) algorithm is used as a binary classifier in two classification levels. The first level classifier is used to categorize the given image as normal or abnormal while the second-level classifier is used for further classifying the abnormal image as either a malignant or benign cancer. The proposed method is studied and investigated in two phases: the training phase and the testing phase, with the MIAS dataset of mammogram images, using 70% and 30% ratios of dataset images for the training and testing sets, respectively. The practical implementation of the proposed method and the graphical user interface (GUI) CAD tool are carried out using MATLAB software. Experimental results of the proposed method have shown that the accuracy of the proposed method reached 100% in classifying images as normal and abnormal mammogram images while the classification accuracy for benign and malignant is equal to 87.1%.

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Section: Literature Review and Related Workmentioning

confidence: 99%

A Diagnostic Model of Breast Cancer Based on Digital Mammogram Images Using Machine Learning Techniques

Al-Fahaidy

Al-Fuhaidi

AL-Darouby

et al. 2022

Applied Computational Intelligence and Soft Computing

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show abstract

“…First, all CADe models based on the segmentation of results. This is true for the detection [12][13][14][15][16][17][18][19][20][21][22], false positive reduction [23][24][25][26][27], and segmentation [28][29][30] of masses. In other words, CADx systems are focused on mass classification systems [13,22,[31][32][33][34][35][36][37][38], or malignant/no-malignant classification systems in general [39].…”

Section: Introductionmentioning

confidence: 99%