Fully Automatic Segmentation of Gynaecological Abnormality Using a New Viola-Jones Model

One of the most complex tasks for computer-aided diagnosis (Intelligent decision support system) is the segmentation of lesions. Thus, this study proposes a new fully automated method for the segmentation of ovarian and breast ultrasound images. The main contributions of this research is the develop...

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Published in:Computers, materials & continua materials & continua, 2021, Vol.66 (3), p.3161-3182
Main Authors: Jasim Hussein, Ihsan, Burhanuddin, M.A., Abed Mohammed, Mazin, Elhoseny, Mohamed, Garcia-Zapirain, Begonya, Suliman Maashi, Marwah, S. Maashi, Mashael
Format: Article
Language:English
Subjects:
Accuracy
Breast cancer
Computer aided decision processes
Datasets
Decision support systems
Image segmentation
Medical imaging
Ovarian cancer
Sensitivity
Task complexity
Tumors
Ultrasonic imaging
Ultrasound
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container_title Computers, materials & continua
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creator Jasim Hussein, Ihsan
Burhanuddin, M.A.
Abed Mohammed, Mazin
Elhoseny, Mohamed
Garcia-Zapirain, Begonya
Suliman Maashi, Marwah
S. Maashi, Mashael
description One of the most complex tasks for computer-aided diagnosis (Intelligent decision support system) is the segmentation of lesions. Thus, this study proposes a new fully automated method for the segmentation of ovarian and breast ultrasound images. The main contributions of this research is the development of a novel Viola–James model capable of segmenting the ultrasound images of breast and ovarian cancer cases. In addition, proposed an approach that can efficiently generate region-of-interest (ROI) and new features that can be used in characterizing lesion boundaries. This study uses two databases in training and testing the proposed segmentation approach. The breast cancer database contains 250 images, while that of the ovarian tumor has 100 images obtained from several hospitals in Iraq. Results of the experiments showed that the proposed approach demonstrates better performance compared with those of other segmentation methods used for segmenting breast and ovarian ultrasound images. The segmentation result of the proposed system compared with the other existing techniques in the breast cancer data set was 78.8%. By contrast, the segmentation result of the proposed system in the ovarian tumor data set was 79.2%. In the classification results, we achieved 95.43% accuracy, 92.20% sensitivity, and 97.5% specificity when we used the breast cancer data set. For the ovarian tumor data set, we achieved 94.84% accuracy, 96.96% sensitivity, and 90.32% specificity.
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subjects Accuracy
Breast cancer
Computer aided decision processes
Datasets
Decision support systems
Image segmentation
Medical imaging
Ovarian cancer
Sensitivity
Task complexity
Tumors
Ultrasonic imaging
Ultrasound
title Fully Automatic Segmentation of Gynaecological Abnormality Using a New Viola-Jones Model
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