Affiliations: [a] Computer Science and Engineering, Sethu Institute of Technology Affiliated to Anna University, Pulloor, Kariapatti, Tamilnadu, India
| [b] General Practitioner, Wecare Medical Centre, Karama, Dubai | [c] Electrical and Electronics Engineering, Kariapatti, Tamilnadu, India
Correspondence:
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Corresponding author. Mohamed Ali Jinna Mathina Kani, Computer Science and Engineering, Sethu Institute of Technology affiliated to Anna University, Pulloor, Kariyapatti, Tamilnadu, India –626 115. Tel.: +918778028373; Fax: 0452 2538126; E-mail: mohamed.mathinakani@gmail.com.
Abstract: In this article, a methodological approach to classifying malignant melanoma in dermoscopy images is presented. Early treatment of skin cancer increases the patient’s survival rate. The classification of melanoma skin cancer in the early stages is decided by dermatologists to treat the patient appropriately. Dermatologists need more time to diagnose affected skin lesions due to high resemblance between melanoma and benign. In this paper, a deep learning based Computer-Aided Diagnosis (CAD) system is developed to accurately classify skin lesions with a high classification rate. A new architecture has been framed to classify the skin lesion diseases using the Inception v3 model as a baseline architecture. The extracted features from the Inception Net are then flattened and are given to the DenseNet block to extracts more fine grained features of the lesion disease. The International Skin Imaging Collaboration (ISIC) archive datasets contains 3307 dermoscopy images which includes both benign and malignant skin images. The dataset images are trained using the proposed architecture with the learning rate of 0.0001, batch size 64 using various optimizer. The performance of the proposed model has also been evaluated using confusion matrix and ROC-AUC curves. The experimental results show that the proposed model attains a highest accuracy rate of 91.29 % compared to other state-of-the-art methods like ResNet, VGG-16, DenseNet, MobileNet. A confusion matrix and ROC curve are used to evaluate the performance analysis of skin images. The classification accuracy, sensitivity, specificity, testing accuracy, and AUC values were obtained at 90.33%, 82.87%, 91.29%, 87.12%, and 87.40%.
