Volume 10, Issue 3 (12-2023)
jhbmi 2023, 10(3): 260-268 |
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Rezazadeh Tamrin H, Saniei E, Salehi Barough M. Breast Cancer Detection in Thermographic Images Using Hybrid Networks. jhbmi 2023; 10 (3) :260-268
URL: http://jhbmi.ir/article-1-786-en.html
URL: http://jhbmi.ir/article-1-786-en.html
Ph.D. in Nuclear Engineering, Assistant Professor, Medical Radiation Research Center, Central Tehran Branch Islamic Azad University, Tehran, Iran
Abstract: (399 Views)
Introduction: Breast cancer is the most common cancer in women that causes more deaths than other cancers. Thermography is one of the methods of breast cancer diagnosis. The most important challenge in early detection of these images can be human error or lack of access to a skilled person. The use of artificial intelligence methods in image processing can be effective in early detection and reduction of human error. The main aim of this research was to introduce hybrid networks for intelligent diagnosis of breast cancer from thermographic images.
Method: The thermographic images used in this study were collected from the DMR-IR database. First, the main features of the images were extracted by deep convolutional network (CNN). Then, FCNNs and SVM algorithms were used to classify breast cancer from thermographic images.
Results: The accuracy rate for CNN_FC and CNN-SVM algorithms was 94.2% and 0.95%, respectively. In addition, the reliability parameters for these classifiers were calculated as 92.1%, and 97.5%, and the sensitivity for each of these classifiers as 95.5%, and 94.1%, respectively.
Conclusion: The proposed model based on the deep hybrid network has good accuracy compared to similar algorithms; therefore, it can help doctors in the early diagnosis of breast cancer through thermographic images and minimize human error.
Method: The thermographic images used in this study were collected from the DMR-IR database. First, the main features of the images were extracted by deep convolutional network (CNN). Then, FCNNs and SVM algorithms were used to classify breast cancer from thermographic images.
Results: The accuracy rate for CNN_FC and CNN-SVM algorithms was 94.2% and 0.95%, respectively. In addition, the reliability parameters for these classifiers were calculated as 92.1%, and 97.5%, and the sensitivity for each of these classifiers as 95.5%, and 94.1%, respectively.
Conclusion: The proposed model based on the deep hybrid network has good accuracy compared to similar algorithms; therefore, it can help doctors in the early diagnosis of breast cancer through thermographic images and minimize human error.
Type of Study: Original Article |
Subject:
Artificial Intelligence in Healthcare
Received: 2023/06/6 | Accepted: 2023/10/31
Received: 2023/06/6 | Accepted: 2023/10/31
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