DUNEScan: a web server for uncertainty estimation in skin cancer detection with deep neural networks

AbstractRecent years have seen a steep rise in the number of skin cancer detection applications. While modern advances in deep learning made possible reaching new heights in terms of classification accuracy, no publicly available skin cancer detection software provide confidence estimates for these predictions. We present DUNEScan (Deep Uncertainty Estimation for Skin Cancer), a web server that performs an intuitive in-depth analysis of uncertainty in commonly used skin cancer classification models based on convolutional neural networks (CNNs). DUNEScan allows users to upload a skin lesion image, and quickly compares the mean and the variance estimates provided by a number of new and traditional CNN models. Moreover, our web server uses the Grad-CAM and UMAP algorithms to visualize the classification manifold for the user’s input, hence providing crucial information about its closeness to skin lesion images from the popular ISIC database. DUNEScan is freely available at: https://www.dunescan.org.

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DUNEScan: A Web Application for Uncertainty Estimation in Skin Cancer Detection with Deep Neural Networks

10.21203/rs.3.rs-712718/v1 ◽

2021 ◽

Author(s):

Bogdan Mazoure ◽

Alexander Mazoure ◽

Jocelyn Bédard ◽

Vladimir Makarenkov

Keyword(s):

Neural Networks ◽

Skin Cancer ◽

Skin Lesion ◽

Cancer Detection ◽

Web Application ◽

Depth Analysis ◽

Crucial Information ◽

The Mean ◽

Variance Estimates ◽

Skin Cancer Detection

Abstract Recent years have seen a steep rise in the number of skin cancer detection applications. While modern advances in deep learning made possible reaching new heights in terms of classification accuracy, no publicly available skin cancer detection software provide confidence estimates for these predictions. We present DUNEScan (Deep Uncertainty Estimation for Skin Cancer), a web application that performs an intuitive in-depth analysis of uncertainty in commonly used skin cancer classification models based on convolutional neural networks (CNNs). DUNEScan allows users to upload a skin lesion image, and quickly compares the mean and the variance estimates provided by a number of new and traditional CNN models. Moreover, our web application uses the Grad-CAM and UMAP algorithms to visualize the classification manifold for the user’s input, hence providing crucial information about its closeness to skin lesion images taken from the popular ISIC database. DUNEScan is freely available at: https://www.dunescan.org.

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Skin Lesion Classification Based on Deep Convolutional Neural Networks Architectures

Journal of Applied Science and Technology Trends ◽

10.38094/jastt20189 ◽

2021 ◽

Vol 2 (01) ◽

pp. 41-51

Author(s):

Jwan Saeed ◽

Subhi Zeebaree

Keyword(s):

Neural Networks ◽

Deep Learning ◽

Skin Cancer ◽

Cancer Detection ◽

Deep Convolutional Neural Networks ◽

Color Structure ◽

Malignant Skin ◽

Dermatological Disorders ◽

Detection And Diagnosis ◽

Skin Cancer Detection

Skin cancer is among the primary cancer types that manifest due to various dermatological disorders, which may be further classified into several types based on morphological features, color, structure, and texture. The mortality rate of patients who have skin cancer is contingent on preliminary and rapid detection and diagnosis of malignant skin cancer cells. Limitations in current dermoscopic images, including shadow, artifact, and noise, affect image quality, which may hamper detection effort. Attempts to overcome these challenges have been made by analyzing the images using deep learning neural networks to perform skin cancer detection. In this paper, the authors review the state-of-the-art in authoritative deep learning concepts pertinent to skin cancer detection and classification.

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