Residual U-Network for Breast Tumor Segmentation from Magnetic Resonance Images

Breast cancer positions as the most well-known threat and the main source of malignant growth-related morbidity and mortality throughout the world. It is apical of all new cancer incidences analyzed among females. Two features substantially influence the classification accuracy of malignancy and ben...

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Bibliographic Details
Published in:Computers, materials & continua materials & continua, 2021-01, Vol.67 (3), p.3107-3127
Main Authors: Anand, Ishu, Negi, Himani, Kumar, Deepika, Mittal, Mamta, Kim, Tai-hoon, Roy, Sudipta
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Cancer
Experimentation
Image contrast
Image enhancement
Image segmentation
Magnetic resonance imaging
Medical imaging
Performance evaluation
Tumors
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Summary:Breast cancer positions as the most well-known threat and the main source of malignant growth-related morbidity and mortality throughout the world. It is apical of all new cancer incidences analyzed among females. Two features substantially influence the classification accuracy of malignancy and benignity in automated cancer diagnostics. These are the precision of tumor segmentation and appropriateness of extracted attributes required for the diagnosis. In this research, the authors have proposed a ResU-Net (Residual U-Network) model for breast tumor segmentation. The proposed methodology renders augmented, and precise identification of tumor regions and produces accurate breast tumor segmentation in contrast-enhanced MR images. Furthermore, the proposed framework also encompasses the residual network technique, which subsequently enhances the performance and displays the improved training process. Over and above, the performance of ResU-Net has experimentally been analyzed with conventional U-Net, FCN8, FCN32. Algorithm performance is evaluated in the form of dice coefficient and MIoU (Mean Intersection of Union), accuracy, loss, sensitivity, specificity, F1score. Experimental results show that ResU-Net achieved validation accuracy & dice coefficient value of 73.22% & 85.32% respectively on the Rider Breast MRI dataset and outperformed as compared to the other algorithms used in experimentation.
ISSN:1546-2226
1546-2218
1546-2226
DOI:10.32604/cmc.2021.014229