Classification of Skin Cancer Images using Lightweight Convolutional Neural Network

2023 4th International Conference for Emerging Technology (INCET) Pub Date : 2023-05-26 DOI:10.1109/INCET57972.2023.10170637

Talapally Sandeep Kumar, B. Annappa, Shubham Dodia

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Abstract

Skin is the most powerful shield human organ that protects the internal organs of the human body from external attacks. This important organ is attacked by a diverse range of microbes such as viruses, fungi, and bacteria causing a lot of damage to the skin. Apart from these microbes, even dust plays important role in damaging skin. Every year several people in the world are suffering from skin diseases. These skin diseases are contagious and spread very fast. There are varieties of skin diseases. Thus it requires a lot of practice to distinguish the skin disease by the doctor and provide treatment. In order to automate this process several deep learning models are used in recent past years. This paper demonstrates an efficient and lightweight modified SqueezeNet deep learning model on the HAM10000 dataset for skin cancer classification. This model has outperformed state-of-the-art models with fewer parameters. As compared to existing deep learning models, this SqueezeNet variant has achieved 99.7%, 97.7%, and 97.04% as train, validation, and test accuracies respectively using only 0.13 million parameters.

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基于轻量级卷积神经网络的皮肤癌图像分类

皮肤是保护人体内部器官免受外部攻击的最强大的盾牌。这个重要的器官受到各种微生物的攻击，如病毒、真菌和细菌，对皮肤造成很大的损害。除了这些微生物，灰尘也会对皮肤造成伤害。世界上每年都有几个人患有皮肤病。这些皮肤病具有传染性，传播速度很快。皮肤病有很多种。因此，医生鉴别皮肤病并提供治疗需要大量的实践。为了使这一过程自动化，近年来使用了几种深度学习模型。本文在HAM10000数据集上展示了一种高效、轻量级的改进的SqueezeNet深度学习模型，用于皮肤癌分类。该模型的性能优于最先进的参数较少的模型。与现有的深度学习模型相比，这个SqueezeNet变体仅使用13万个参数，训练、验证和测试的准确率分别达到99.7%、97.7%和97.04%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 4th International Conference for Emerging Technology (INCET)

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