Abstract:

Since the onset of the COVID-19 pandemic, numerous machine learning models have been developed to classify and distinguish COVID-19 positive sounds from egative ones. The aim of this study is to compare the classification performances of convolutional neural networks and capsule networks on the Coswara dataset. The dataset was collected using a website application and contains 1404 and 522 healthy COVID-19 positive subjects. Each subject contains nine different types of sounds. After feature extraction, the dataset was preprocessed by applying oversampling (SOMTE) and normalization (MinMax Scaler) techniques. K-fold cross-validation was used to train and evaluate the models. The CNN classifiers achieved an (AUC) of 90%, while the CapsNet classifiers achieved an (AUC) of 86%. Finally, when leave-one-out cross-validation was used, the CNN classifier achieved an (AUC) of 99%. In addition, we also compared the performance of the CNN and CapsNet networks without applying any preprocessing techniques to the Coswara dataset. The CNN classifiers achieved an AUC of 88%, while the CapsNet classifiers achieved an AUC of 50% without applying oversampling techniques. Moreover, the CNN classifiers achieved an AUC of 81%, while the CapsNet classifiers achieved an AUC of 55% without applying normalization techniques.

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