Breast Cancer Identification via Thermography Image Segmentation with a Gradient Vector Flow and a Convolutional Neural Network

被引：53

作者：

Tello-Mijares S. ^{[1
,2
]}

Woo F. ^{[3
]}

Flores F. ^{[2
]}

机构：

[1] Instituto Tecnológico Superior de Lerdo, Postgraduate Department, Lerdo

[2] Instituto Tecnológico de la Laguna, Postgraduate Department, Torreón

[3] Instituto de Seguridad y Servicios Sociales de Los Trabajadores Del Estado, Medical Familiar Unit, Torreón

来源：

Journal of Healthcare Engineering | 2019年 / 2019卷

关键词：

Bayes networks - Breast Cancer - Classification technique - Curvature function - Early diagnosis - Gradient vector flow - Multi layer perceptron - Segmentation methods;

D O I：

10.1155/2019/9807619

中图分类号：

学科分类号：

摘要：

Breast cancer is the most common cancer among women worldwide with about half a million cases reported each year. Mammary thermography can offer early diagnosis at low cost if adequate thermographic images of the breasts are taken. The identification of breast cancer in an automated way can accelerate many tasks and applications of pathology. This can help complement diagnosis. The aim of this work is to develop a system that automatically captures thermographic images of breast and classifies them as normal and abnormal (without cancer and with cancer). This paper focuses on a segmentation method based on a combination of the curvature function k and the gradient vector flow, and for classification, we proposed a convolutional neural network (CNN) using the segmented breast. The aim of this paper is to compare CNN results with other classification techniques. Thus, every breast is characterized by its shape, colour, and texture, as well as left or right breast. These data were used for training as well as to compare the performance of CNN with three classification techniques: tree random forest (TRF), multilayer perceptron (MLP), and Bayes network (BN). CNN presents better results than TRF, MLP, and BN. © 2019 Santiago Tello-Mijares et al.

引用

共 48 条

[1]

Vasconcelos J.H., Dos Santos W.P., De Lima R.C.F., Analysis of methods of classification of breast thermographic images to determine their viability in the early breast cancer detection, IEEE Latin America Transactions, 16, 6, pp. 1631-1637, (2018)

[2]

Diaz-Cortes M.-A., Ortega-Sanchez N., Hinojosa S., A multi-level thresholding method for breast thermograms analysis using dragonfly algorithm, Infrared Physics & Technology, 93, pp. 346-361, (2018)

[3]

Araujo M.C., Lima R.C.F., De Souza R.M.C.R., Interval symbolic feature extraction for thermography breast cancer detection, Expert Systems with Applications, 41, 15, pp. 6728-6737, (2014)

[4]

Etehadtavakol M., Chandran V., Ng E.Y.K., Kafieh R., Breast cancer detection from thermal images using bispectral invariant features, International Journal of Thermal Sciences, 69, pp. 21-36, (2013)

[5]

Bezerra L.A., Oliveira M.M., Rolim T.L., Estimation of breast tumor thermal properties using infrared images, Signal Processing, 93, 10, pp. 2851-2863, (2013)

[6]

Cruz-Ramirez N., Efren M.M., Maria Yaneli A.A., Evaluation of the diagnostic power of thermography in breast cancer using bayesian network classifiers, Computational and Mathematical Methods in Medicine, 2013, (2013)

[7]

Mahmoudzadeh E., Montazeri M.A., Zekri M., Sadri S., Extended hidden Markov model for optimized segmentation of breast thermography images, Infrared Physics & Technology, 72, pp. 19-28, (2015)

[8]

Etehadtavakol M., Ng E.Y.K., An overview of medical infrared imaging in breast abnormalities detection, Application of Infrared to Biomedical Sciences, pp. 45-57, (2017)

[9]

Etehadtavakol M., Ng E.Y.K., Registration of contralateral breasts thermograms by shape context technique, Application of Infrared to Biomedical Sciences, pp. 59-67, (2017)

[10]

Etehadtavakol M., Ng E.Y.K., An overview of medical infrared imaging in breast abnormalities detection, Application of Infrared to Biomedical Sciences, pp. 69-77, (2017)

← 1 2 3 4 5 →