합성곱 신경망을 활용한 위내시경 이미지 분류에서전이학습의 효용성 평가Evaluation of Transfer Learning in Gastroscopy Image Classification using Convolutional Neual Network
- Other Titles
- Evaluation of Transfer Learning in Gastroscopy Image Classification using Convolutional Neual Network
- Authors
- 박성진; 김영재; 박동균; 정준원; 김광기
- Issue Date
- Oct-2018
- Publisher
- 대한의용생체공학회
- Keywords
- Gastroscope; Convolutional Neual Network; Transfer learning; Resnet; Inception; VGGnet
- Citation
- 의공학회지, v.39, no.5, pp.213 - 219
- Journal Title
- 의공학회지
- Volume
- 39
- Number
- 5
- Start Page
- 213
- End Page
- 219
- URI
- https://scholarworks.bwise.kr/gachon/handle/2020.sw.gachon/4665
- ISSN
- 1229-0807
- Abstract
- Stomach cancer is the most diagnosed cancer in Korea. When gastric cancer is detected early, the 5-year survival rate is as high as 90%. Gastroscopy is a very useful method for early diagnosis. But the false negative rate of gastric cancer in the gastroscopy was 4.6~25.8% due to the subjective judgment of the physician. Recently, the image classification performance of the image recognition field has been advanced by the convolutional neural network.
Convolutional neural networks perform well when diverse and sufficient amounts of data are supported. However, medical data is not easy to access and it is difficult to gather enough high-quality data that includes expert annotations. So This paper evaluates the efficacy of transfer learning in gastroscopy classification and diagnosis. We obtained 787 endoscopic images of gastric endoscopy at Gil Medical Center, Gachon University. The number of normal images was 200, and the number of abnormal images was 587. The image size was reconstructed and normalized.
In the case of the ResNet50 structure, the classification accuracy before and after applying the transfer learning was improved from 0.9 to 0.947, and the AUC was also improved from 0.94 to 0.98. In the case of the InceptionV3 structure, the classification accuracy before and after applying the transfer learning was improved from 0.862 to 0.924, and the AUC was also improved from 0.89 to 0.97. In the case of the VGG16 structure, the classification accuracy before and after applying the transfer learning was improved from 0.87 to 0.938, and the AUC was also improved from 0.89 to 0.98. The difference in the performance of the CNN model before and after transfer learning was statistically significant when confirmed by T-test (p < 0.05). As a result, transfer learning is judged to be an effective method of medical data that is difficult to collect good quality data.
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