This research proposes a convolutional neural network (CNN) approach for the classification of mammograms into normal, benign, and malignant categories. The study uses the Digital Database for Screening Mammography (DDSM) dataset, which contains 2,620 scanned mammography images with various normal, benign, and malignant cases.
The key highlights of the research are:
Data Preprocessing: The mammogram images are preprocessed using techniques like median filtering and histogram equalization to enhance contrast and remove unwanted background.
CNN Architecture: The proposed CNN model consists of 4 convolutional layers, 4 max pooling layers, dropout, flatten, and dense layers. This architecture is implemented using the Google Collaboratory platform and Python libraries like TensorFlow and Keras.
Performance Evaluation: The model achieves an average precision of 0.95, recall of 0.88, and F1-score of 0.91 across the three classes. The confusion matrix analysis provides further insights into the classification accuracy.
Comparative Analysis: The proposed CNN-based approach outperforms previous techniques like neural networks, support vector machines, and hybrid algorithms in terms of classification performance on the DDSM dataset.
Future Work: The researchers suggest exploring other deep learning architectures like VGG and ResNet for further improvements in interpretability and performance.
Overall, the study demonstrates the effectiveness of convolutional neural networks in automating the detection and classification of breast cancer from mammogram images, which can aid radiologists in early diagnosis and treatment.
На другой язык
из исходного контента
arxiv.org
Дополнительные вопросы