2020
DOI: 10.25046/aj050220
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Transfer Learning and Fine Tuning in Breast Mammogram Abnormalities Classification on CBIS-DDSM Database

Abstract: Breast cancer has an important incidence in women mortality worldwide. Currently, mammography is considered the gold standard for breast abnormalities screening examinations, since it aids in the early detection and diagnosis of the illness. However, both identification of mass lesions and its malignancy classification is a challenging problem for artificial intelligence. In this work, we extend our previous research in mammogram classification, where we studied NasNet and MobileNet in transfer learning to tra… Show more

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Cited by 57 publications
(36 citation statements)
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“…The primary goal of this study is to create a model that can effectively detect and classify breast tumors while also minimizing FPR and FNR rates and increasing MCC values. The CBIS-DDSM [ 26 ] dataset is utilized for this. As seen in Figure 1 , the initial stage is to remove the rough white borders, followed by the removal of artifacts and pectoral muscles.…”
Section: Proposed Methodologymentioning
confidence: 99%
See 1 more Smart Citation
“…The primary goal of this study is to create a model that can effectively detect and classify breast tumors while also minimizing FPR and FNR rates and increasing MCC values. The CBIS-DDSM [ 26 ] dataset is utilized for this. As seen in Figure 1 , the initial stage is to remove the rough white borders, followed by the removal of artifacts and pectoral muscles.…”
Section: Proposed Methodologymentioning
confidence: 99%
“…The results achieved using this method are 93% sensitivity for OMI-H, 91% sensitivity for OMI-GE, and 99% sensitivity for INbreast but FPR and FNR rates for OMI-GE dataset increases to 12% and 20%, for INbreast dataset increases to 20% and 29%, and FNR rate for OMI-H increases to 13%, respectively. In this paper [ 26 ], an author proposed a method to classify breast cancer tumors using the VGG-16 network on the CBIS-DDSM dataset. This method achieved 82% accuracy, but the drawback is that their MCC value is 63%, FPR is high, 22%, and FNR is 15%.…”
Section: Related Workmentioning
confidence: 99%
“…Data augmentation techniques are also a well-known strategy to expand the diversity of the dataset, improving the robustness of the model and contributing to the overall prediction accuracy which has been proven its worth in the field of deep learning. This technique can reduce overfitting in CNN models [ 49 ] as the model will have enough distinct data to train on and can also accelerate convergence. The most commonly applied data transformation techniques are flipping, rotating, zooming, mirroring, and cropping.…”
Section: Data Augmentationmentioning
confidence: 99%
“…Unfortunately, this also applies to publicly available, breast cancer datasets. To deal-with this concern, transfer learning and fine-tuning can help to increase the accuracy of classifiers by transferring knowledge from another domain where large datasets are available [ 49 ]. Transfer learning of a CNN model that is pre-trained with a large scale natural image dataset (i.e., ImageNet), to medical images [ 51 ] can be a promising approach.…”
Section: Proposed Modelmentioning
confidence: 99%
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