Extended Feature Space-Based Automatic Melanoma Detection System
- URL: http://arxiv.org/abs/2209.04588v1
- Date: Sat, 10 Sep 2022 04:15:45 GMT
- Title: Extended Feature Space-Based Automatic Melanoma Detection System
- Authors: Shakti Kumar, Anuj Kumar
- Abstract summary: Melanoma is the deadliest form of skin cancer. Uncontrollable growth of melanocytes leads to melanoma.
The Automatic Melanoma Detection System (AMDS) helps to detect melanoma based on image processing techniques.
A novel algorithm ExtFvAMDS is proposed for the calculation of Extended Feature Vector Space.
- Score: 9.165013127586267
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Melanoma is the deadliest form of skin cancer. Uncontrollable growth of
melanocytes leads to melanoma. Melanoma has been growing wildly in the last few
decades. In recent years, the detection of melanoma using image processing
techniques has become a dominant research field. The Automatic Melanoma
Detection System (AMDS) helps to detect melanoma based on image processing
techniques by accepting infected skin area images as input. A single lesion
image is a source of multiple features. Therefore, It is crucial to select the
appropriate features from the image of the lesion in order to increase the
accuracy of AMDS. For melanoma detection, all extracted features are not
important. Some of the extracted features are complex and require more
computation tasks, which impacts the classification accuracy of AMDS. The
feature extraction phase of AMDS exhibits more variability, therefore it is
important to study the behaviour of AMDS using individual and extended feature
extraction approaches. A novel algorithm ExtFvAMDS is proposed for the
calculation of Extended Feature Vector Space. The six models proposed in the
comparative study revealed that the HSV feature vector space for automatic
detection of melanoma using Ensemble Bagged Tree classifier on Med-Node Dataset
provided 99% AUC, 95.30% accuracy, 94.23% sensitivity, and 96.96% specificity.
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