Towards Skin Cancer Self-Monitoring through an Optimized MobileNet with Coordinate Attention

2022 25th Euromicro Conference on Digital System Design (DSD) Pub Date : 2022-08-01 DOI:10.1109/DSD57027.2022.00087

María Castro-Fernández, Abián Hernández, H. Fabelo, Francisco Balea-Fernández, S. Ortega, G. Callicó

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引用次数: 1

Abstract

Skin cancer is one of the most frequent type of cancer, which is tipically divided in two types: melanoma and non-melanoma. Melanoma is the least common, but also the deadliest of them if left untreated in early stages. Thus, skin cancer monitoring is key for early detection, which could be done with the help of mobile devices and artificial intelligence solutions. In this sense, local deployment is suggested to embrace simplicity and avoid data privacy and security issues. However, current high-performance neural networks are extremely challenging to be deployed in mobile devices due to resource constraint, so lighter but effective models are required to make local deployment possible. In this work, simplifying an already light model, such as MobileNetV2, is pursued, combining it with an attention mechanism to enhance the network's capability to learn and compensate for the lack of information that simplifying the original architecture might cause. Fine-tuning was applied, using an autoencoder to pre-train the model on the CIFAR100 dataset. Experiments covering four scenarios were carried out using HAM10000 dataset. Promising results were obtained, reaching the best performance using a simplified MobileNetV2 combined with Coordinate Attention mechanism with less than a million parameters in total and up to a 83.93 % of accuracy.

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通过协调关注的优化移动网络实现皮肤癌自我监测

皮肤癌是最常见的癌症之一，通常分为两种类型:黑色素瘤和非黑色素瘤。黑色素瘤是最不常见的，但如果在早期不治疗，也是最致命的。因此，皮肤癌监测是早期发现的关键，这可以在移动设备和人工智能解决方案的帮助下完成。从这个意义上说，建议采用本地部署，以实现简单性并避免数据隐私和安全问题。然而，由于资源限制，目前的高性能神经网络在移动设备上的部署极具挑战性，因此需要更轻但有效的模型来实现本地部署。在这项工作中，简化了一个已经很轻的模型，如MobileNetV2，并将其与注意力机制相结合，以增强网络的学习能力，并弥补简化原始架构可能导致的信息缺乏。应用微调，使用自编码器在CIFAR100数据集上预训练模型。采用HAM10000数据集进行了四种场景的实验。使用简化的MobileNetV2结合坐标注意机制达到了最好的效果，总参数少于一百万个，准确率高达83.93%。

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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来源期刊

2022 25th Euromicro Conference on Digital System Design (DSD)

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