Joint learning method with teacher-student knowledge distillation for on-device breast cancer image classification

The deep learning models such as AlexNet, VGG, and ResNet achieved a good performance in classifying the breast cancer histopathological images in BreakHis dataset. However, these models are not practically appro-priate due to their computational complexity and too many parameters; as a result, they are rarely utilized on devices with limited computational resources. This paper develops a lightweight learning model based on knowledge distillation to classify the histopathological images of breast cancer in BreakHis. This method employs two teacher models based on VGG and ResNext to train two student models, which are similar to the teacher models in development but have fewer deep layers. In the proposed method, the adaptive joint learning approach is adopted to transfer the knowledge in the final-layer output of a teacher model along with the feature maps of its middle layers as the dark knowledge to a student model. According to the experimental results, the student model designed by ResNeXt architecture obtained the recognition rate 97.09% for all histopathological images. In addition, this model has-69.40 million fewer parameters,-0.93 G less GPU memory use, and 268.17 times greater compression rate than its teacher model. While in the student model the recognition rate merely dropped down to 1.75%. The comparisons indicated that the student model had a rather acceptable outputs compared with state-of-the-art methods in classifying the images of breast cancer in BreakHis.

Automated summary

A lightweight learning model based on knowledge distillation is developed to classify breast cancer histopathological images in the BreakHis dataset. The student model, trained using two teacher models based on VGG and ResNext, achieved a recognition rate of 97.09% with significantly fewer parameters, reduced GPU memory usage, and higher compression rate compared to the teacher model. The results showed that the student model produced acceptable outputs in classifying the images of breast cancer in BreakHis.