Abstract

The key to preventing the COVID-19 is to diagnose patients quickly and accurately. Studies have shown that using Convolutional Neural Networks (CNN) to analyze chest Computed Tomography (CT) images is helpful for timely COVID-19 diagnosis. However, personal privacy issues, public chest CT data sets are relatively few, which has limited CNN's application to COVID-19 diagnosis. Also, many CNNs have complex structures and massive parameters. Even if equipped with the dedicated Graphics Processing Unit (GPU) for acceleration, it still takes a long time, which is not conductive to widespread application. To solve above problems, this paper proposes a lightweight CNN classification model based on transfer learning. Use the lightweight CNN MobileNetV2 as the backbone of the model to solve the shortage of hardware resources and computing power. In order to alleviate the problem of model overfitting caused by insufficient data set, transfer learning is used to train the model. The study first exploits the weight parameters trained on the ImageNet database to initialize the MobileNetV2 network, and then retrain the model based on the CT image data set provided by Kaggle. Experimental results on a computer equipped only with the Central Processing Unit (CPU) show that it consumes only 1.06 s on average to diagnose a chest CT image. Compared to other lightweight models, the proposed model has a higher classification accuracy and reliability while having a lightweight architecture and few parameters, which can be easily applied to computers without GPU acceleration. Code:github.com/ZhouJie-520/paper-codes.

Highlights

  • COVID-19 is an acute respiratory infection syndrome with high infectiousness, which negatively impacts the development of countries around the world [1]

  • The first set is a computer equipped with Intel Core I7-10700 Central Processing Unit (CPU) and 16 GB RAM, and connecting to a remote server consisting of 4 NVIDIA GeForce RTX 3090 Graphics Processing Unit (GPU)

  • The used data is from the COVID-19 Computed Tomography (CT) image data set available on Kaggle

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Summary

Introduction

COVID-19 is an acute respiratory infection syndrome with high infectiousness, which negatively impacts the development of countries around the world [1]. Reverse transcription polymerase chain reaction (RT-PCR) testing, considered as the standard method to detect COVID-19 It has many disadvantages including time consuming, high false negative rate and low sensitivity. The lung imaging characteristics of patients infected by COVID-19 present mainly ground glass opacities, lung consolidation, bilateral patchy shadowing, pulmonary fibrosis, multiple lesions, and crazy-paving pattern [7,8,9]. These characteristics serve as the main basis for COVID-19 diagnosis and treatment.

Related Work
The Proposed Classification Model Framework
Overall Process
Image Preprocessing
CNN Architecture
Transfer Learning
Hyperparameters Tuning
Data Set
Hyperparameters Optimization Results
Parameter Setting
Quantitative Analyses
Conclusion

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