用于白血病诊断的新型深度学习分割和分类框架

IF 1.8 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Algorithms Pub Date : 2023-12-05 DOI:10.3390/a16120556
A. K. Alzahrani, A. Alsheikhy, T. Shawly, Ahmed Azzahrani, Y. Said
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引用次数: 0

摘要

血癌的发生是由于白细胞(wbc)的变化。这些变化被称为白血病。白血病主要发生在儿童身上,影响他们的组织或血浆。然而,它可能发生在成年人身上。如果发现和诊断较晚,这种疾病就会致命并导致死亡。此外,白血病也可能由基因突变引起。因此,有必要及早发现,以挽救病人的生命。最近,研究人员利用不同的技术开发了各种检测白血病的方法。深度学习方法(DLAs)因其准确性高而得到了广泛的应用。然而,其中一些方法既耗时又昂贵。因此,需要一种低成本、高精度的实用解决方案。本文提出了一种新的分割和分类框架模型,使用深度学习结构来发现和分类白血病。该系统包括两个主要部分,即用于分割的深度学习技术和对分割的部分进行特征提取和分类。开发了一种新的UNET体系结构来提供分割和特征提取过程。在四个数据集上进行了各种实验,使用许多性能因素来评估模型,包括精度,召回率,f分数和骰子相似系数(DSC)。分割和分类的平均准确率达到97.82%。另外,f分的合格率为98.64%。结果表明,该方法是一种发现白血病并将其分类的有效方法。此外,该模型的性能优于一些已实现的方法。提出的系统可以帮助医疗保健提供者提供服务。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Deep Learning Segmentation and Classification Framework for Leukemia Diagnosis
Blood cancer occurs due to changes in white blood cells (WBCs). These changes are known as leukemia. Leukemia occurs mostly in children and affects their tissues or plasma. However, it could occur in adults. This disease becomes fatal and causes death if it is discovered and diagnosed late. In addition, leukemia can occur from genetic mutations. Therefore, there is a need to detect it early to save a patient’s life. Recently, researchers have developed various methods to detect leukemia using different technologies. Deep learning approaches (DLAs) have been widely utilized because of their high accuracy. However, some of these methods are time-consuming and costly. Thus, a need for a practical solution with low cost and higher accuracy is required. This article proposes a novel segmentation and classification framework model to discover and categorize leukemia using a deep learning structure. The proposed system encompasses two main parts, which are a deep learning technology to perform segmentation and characteristic extraction and classification on the segmented section. A new UNET architecture is developed to provide the segmentation and feature extraction processes. Various experiments were performed on four datasets to evaluate the model using numerous performance factors, including precision, recall, F-score, and Dice Similarity Coefficient (DSC). It achieved an average 97.82% accuracy for segmentation and categorization. In addition, 98.64% was achieved for F-score. The obtained results indicate that the presented method is a powerful technique for discovering leukemia and categorizing it into suitable groups. Furthermore, the model outperforms some of the implemented methods. The proposed system can assist healthcare providers in their services.
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来源期刊
Algorithms
Algorithms Mathematics-Numerical Analysis
CiteScore
4.10
自引率
4.30%
发文量
394
审稿时长
11 weeks
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