Extreme Learning Machine for Biomedical Image Classification: A Multi-Case Study

Q2 Computer Science

EAI Endorsed Transactions on Pervasive Health and Technology Pub Date : 2024-03-25 DOI:10.4108/eetpht.10.5542

F. Mercaldo, Luca Brunese, A. Santone, Fabio Martinelli, M. Cesarelli

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Abstract

In the current realm of biomedical image classification, the predominant choice remains deep learning networks, particularly convolutional neural network (CNN) models. However, deep learning suffers from a notable drawback in terms of its high training cost, mainly due to intricate data models. A recent alternative, known as the Extreme Learning Machine (ELM), has emerged as a promising solution. Empirical investigations have indicated that ELM can offer satisfactory predictive performance for a wide array of classification tasks, while significantly reducing training costs when compared to deep learning networks trained using back propagation.This research paper introduces a methodology designed to evaluate the suitability of employing the Extreme Learning Machine for biomedical classification tasks. Our study encompasses binary and multiclass classification across four distinct scenarios, involving the analysis of biomedical images obtained from both dermatoscopes and blood cell microscopes. The findings underscore the effectiveness of the Extreme Learning Machine, showcasing its successful utilization in the classification of biomedical images.

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用于生物医学图像分类的极限学习机：多案例研究

在当前的生物医学图像分类领域，最主要的选择仍然是深度学习网络，尤其是卷积神经网络（CNN）模型。然而，深度学习有一个明显的缺点，即训练成本高，这主要是由于数据模型错综复杂。最近，一种被称为 "极限学习机"（Extreme Learning Machine，ELM）的替代方案异军突起。实证研究表明，与使用反向传播训练的深度学习网络相比，ELM 可以为各种分类任务提供令人满意的预测性能，同时显著降低训练成本。我们的研究涵盖了四种不同场景下的二分类和多分类，涉及分析从皮肤镜和血细胞显微镜获得的生物医学图像。研究结果强调了极限学习机的有效性，展示了它在生物医学图像分类中的成功应用。

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