An improved strategy for skin lesion detection and classification using uniform segmentation and feature selection based approach |
| |
| Authors: | Muhammad Nasir Muhammad Attique Khan Muhammad Sharif Ikram Ullah Lali Tanzila Saba Tassawar Iqbal |
| |
| Affiliation: | 1. COMSATS Institute of Information Technology, Wah Cantt, Pakistan;2. Department of Computer Science and Engineering, HITEC University, Museum Road, Taxila;3. Department of Software Engineering, University of Gujrat, Pakistan;4. College of Computer and Information Sciences Prince Sultan University, Riyadh, 11586, Saudi Arabia |
| |
| Abstract: | Melanoma is the deadliest type of skin cancer with highest mortality rate. However, the annihilation in early stage implies a high survival rate therefore, it demands early diagnosis. The accustomed diagnosis methods are costly and cumbersome due to the involvement of experienced experts as well as the requirements for highly equipped environment. The recent advancements in computerized solutions for these diagnoses are highly promising with improved accuracy and efficiency. In this article, we proposed a method for the classification of melanoma and benign skin lesions. Our approach integrates preprocessing, lesion segmentation, features extraction, features selection, and classification. Preprocessing is executed in the context of hair removal by DullRazor, whereas lesion texture and color information are utilized to enhance the lesion contrast. In lesion segmentation, a hybrid technique has been implemented and results are fused using additive law of probability. Serial based method is applied subsequently that extracts and fuses the traits such as color, texture, and HOG (shape). The fused features are selected afterwards by implementing a novel Boltzman Entropy method. Finally, the selected features are classified by Support Vector Machine. The proposed method is evaluated on publically available data set PH2. Our approach has provided promising results of sensitivity 97.7%, specificity 96.7%, accuracy 97.5%, and F‐score 97.5%, which are significantly better than the results of existing methods available on the same data set. The proposed method detects and classifies melanoma significantly good as compared to existing methods. |
| |
| Keywords: | features extraction features selection image enhancement image fusion skin cancer |
|
|
