Author: Ali, M.; Ali, R.; Hussain, N.
Title: Improved Medical Image Classification Accuracy on Heterogeneous and Imbalanced Data using Multiple Streams Network Cord-id: 5iwnxtpp Document date: 2021_1_1
ID: 5iwnxtpp
Snippet: Small and massively imbalanced datasets are long-standing problems on medical image classification. Traditionally, researchers use pre-trained models to solve these problems, however, pre-trained models typically have a huge number of trainable parameters. Small datasets are challenging for them to train a model adequately and imbalanced datasets easily lead to overfitting on the classes with more samples. Multiple-stream networks that learn a variety of features have recently gained popularity.
Document: Small and massively imbalanced datasets are long-standing problems on medical image classification. Traditionally, researchers use pre-trained models to solve these problems, however, pre-trained models typically have a huge number of trainable parameters. Small datasets are challenging for them to train a model adequately and imbalanced datasets easily lead to overfitting on the classes with more samples. Multiple-stream networks that learn a variety of features have recently gained popularity. Therefore, in this work, a quad-stream hybrid model called QuadSNet using conventional as well as separable convolutional neural networks is proposed to achieve better performance on small and imbalanced datasets without using any pre-trained model. The designed model extracts hybrid features and the fusion of such features makes the model more robust on heterogeneous data. Besides, a weighted margin loss is used to handle the problem of class imbalance. The QuadSNet is trained and tested on seven different classification datasets. To evaluate the advantages of QuadSNet on small and massively imbalanced data, it is compared with six state-of-the-art pre-trained models on three benchmark datasets based on Pneumonia, COVID-19, and Cancer classification. To assess the performance of QuadSNet on general classification datasets, it is compareed with the best model on each of the remaining four datasets, which contain larger, balanced, grayscale, color or non-medical image data. The results show that QuadSNet handles the class imbalance and overfitting better than existing pre-trained models with much fewer parameters on small datasets. Meanwhile, QuadSNet has competitive performance in general datasets. © 2021. All Rights Reserved.
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