Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification
Modern-era largely depends on Deep Learning (DL) in a lot of applications. Medical Images Diagnosis is one of the important fields nowadays because it is related to human life. But this DL requires large datasets as well as powerful computing resources. At the beginning of 2020, the world faced a ne...
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Springer Science and Business Media Deutschland GmbH
2022
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my.utm.1005752023-04-17T07:10:03Z http://eprints.utm.my/id/eprint/100575/ Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification Hamad, Qusay Shihab Samma, Hussein Suandi, Shahrel Azmin Mohamad Saleh, Junita QA75 Electronic computers. Computer science Modern-era largely depends on Deep Learning (DL) in a lot of applications. Medical Images Diagnosis is one of the important fields nowadays because it is related to human life. But this DL requires large datasets as well as powerful computing resources. At the beginning of 2020, the world faced a new pandemic called COVID-19. Since it is new, shortage of reliable datasets of a running pandemic is a common phenomenon. One of the best solutions to mitigate this shortage is taking advantage of Deep Transfer Learning (DTL). DTL would be useful because it learns from one task and could work on another task with a smaller amount of dataset. This paper aims to examine the application of the transferred VGG-19 to solve the problem of COVID-19 detection from a chest x-ray. Different scenarios of the VGG-19 have been examined, including shallow model, medium model, and deep model. The main advantages of this work are two folds: COVID-19 patient can be detected with a small number of data sets, and the complexity of VGG-19 can be reduced by reducing the number of layers, which consequently reduces the training time. To assess the performance of these architectures, 2159 chest x-ray images were employed. Reported results indicated that the best recognition rate was achieved from a shallow model with 95% accuracy while the medium model and deep model obtained 94% and 75%, respectively. Springer Science and Business Media Deutschland GmbH 2022 Book Section PeerReviewed Hamad, Qusay Shihab and Samma, Hussein and Suandi, Shahrel Azmin and Mohamad Saleh, Junita (2022) Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification. In: Proceedings of the 11th International Conference on Robotics, Vision, Signal Processing and Power Applications Enhancing Research and Innovation through the Fourth Industrial Revolution. Lecture Notes in Electrical Engineering, 829 (NA). Springer Science and Business Media Deutschland GmbH, Singapore, pp. 930-935. ISBN 978-981168128-8 http://dx.doi.org/10.1007/978-981-16-8129-5_142 DOI:10.1007/978-981-16-8129-5_142 |
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QA75 Electronic computers. Computer science Hamad, Qusay Shihab Samma, Hussein Suandi, Shahrel Azmin Mohamad Saleh, Junita Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification |
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Modern-era largely depends on Deep Learning (DL) in a lot of applications. Medical Images Diagnosis is one of the important fields nowadays because it is related to human life. But this DL requires large datasets as well as powerful computing resources. At the beginning of 2020, the world faced a new pandemic called COVID-19. Since it is new, shortage of reliable datasets of a running pandemic is a common phenomenon. One of the best solutions to mitigate this shortage is taking advantage of Deep Transfer Learning (DTL). DTL would be useful because it learns from one task and could work on another task with a smaller amount of dataset. This paper aims to examine the application of the transferred VGG-19 to solve the problem of COVID-19 detection from a chest x-ray. Different scenarios of the VGG-19 have been examined, including shallow model, medium model, and deep model. The main advantages of this work are two folds: COVID-19 patient can be detected with a small number of data sets, and the complexity of VGG-19 can be reduced by reducing the number of layers, which consequently reduces the training time. To assess the performance of these architectures, 2159 chest x-ray images were employed. Reported results indicated that the best recognition rate was achieved from a shallow model with 95% accuracy while the medium model and deep model obtained 94% and 75%, respectively. |
| format |
Book Section |
| author |
Hamad, Qusay Shihab Samma, Hussein Suandi, Shahrel Azmin Mohamad Saleh, Junita |
| author_facet |
Hamad, Qusay Shihab Samma, Hussein Suandi, Shahrel Azmin Mohamad Saleh, Junita |
| author_sort |
Hamad, Qusay Shihab |
| title |
Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification |
| title_short |
Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification |
| title_full |
Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification |
| title_fullStr |
Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification |
| title_full_unstemmed |
Study of VGG-19 depth in transfer learning for COVID-19 X-Ray image classification |
| title_sort |
study of vgg-19 depth in transfer learning for covid-19 x-ray image classification |
| publisher |
Springer Science and Business Media Deutschland GmbH |
| publishDate |
2022 |
| url |
http://eprints.utm.my/id/eprint/100575/ http://dx.doi.org/10.1007/978-981-16-8129-5_142 |
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