$$D_MD_RDF$$ : diabetes mellitus and retinopathy detection framework using artificial intelligence and feature selection

IF 3.1 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Soft Computing Pub Date : 2024-08-05 DOI:10.1007/s00500-024-09873-y
Hossam Magdy Balaha, Eman M. El-Gendy, Mahmoud M. Saafan
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Abstract

Diabetes mellitus is one of the most common diseases affecting patients of different ages. Diabetes can be controlled if diagnosed as early as possible. One of the serious complications of diabetes affecting the retina is diabetic retinopathy. If not diagnosed early, it can lead to blindness. Our purpose is to propose a novel framework, named \(D_MD_RDF\), for early and accurate diagnosis of diabetes and diabetic retinopathy. The framework consists of two phases, one for diabetes mellitus detection (DMD) and the other for diabetic retinopathy detection (DRD). The novelty of DMD phase is concerned in two contributions. Firstly, a novel feature selection approach called Advanced Aquila Optimizer Feature Selection (\(A^2OFS\)) is introduced to choose the most promising features for diagnosing diabetes. This approach extracts the required features from the results of laboratory tests while ignoring the useless features. Secondly, a novel classification approach (CA) using five modified machine learning (ML) algorithms is used. This modification of the ML algorithms is proposed to automatically select the parameters of these algorithms using Grid Search (GS) algorithm. The novelty of DRD phase lies in the modification of 7 CNNs using Aquila Optimizer for the classification of diabetic retinopathy. The reported results concerning the DMD datasets shows that AO reports best performance metrics in the feature selection process with the help of modified ML classifiers. The best achieved accuracy is 98.65% with the GS-ERTC model and max-absolute scaling on the “Early Stage Diabetes Risk Prediction Dataset” dataset. Also, from the reported results concerning the DRD datasets, the AOMobileNet is considered a suitable model for this problem as it outperforms the other modified CNN models with accuracy of 95.80% on the “The SUSTech-SYSU dataset” dataset.

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D_MD_RDF$$:利用人工智能和特征选择的糖尿病和视网膜病变检测框架
糖尿病是影响不同年龄段患者的最常见疾病之一。如果能尽早诊断,糖尿病是可以得到控制的。糖尿病视网膜病变是影响视网膜的严重并发症之一。如果不及早诊断,可能会导致失明。我们的目的是提出一个新颖的框架,命名为(D_MD_RDF),用于早期准确诊断糖尿病和糖尿病视网膜病变。该框架由两个阶段组成,一个阶段用于糖尿病检测(DMD),另一个阶段用于糖尿病视网膜病变检测(DRD)。DMD 阶段的新颖之处在于两个方面。首先,引入了一种名为高级阿奎拉优化特征选择(Advanced Aquila Optimizer Feature Selection)的新型特征选择方法,以选择最有希望诊断糖尿病的特征。这种方法从实验室测试结果中提取所需的特征,同时忽略无用的特征。其次,使用五种经过改进的机器学习(ML)算法的新型分类方法(CA)。这种对 ML 算法的修改建议使用网格搜索(GS)算法自动选择这些算法的参数。DRD 阶段的新颖之处在于使用 Aquila 优化器修改了 7 个 CNN,用于糖尿病视网膜病变的分类。有关 DMD 数据集的报告结果表明,在改进的 ML 分类器的帮助下,AO 在特征选择过程中报告了最佳性能指标。在 "早期糖尿病风险预测数据集 "数据集上,使用 GS-ERTC 模型和最大绝对缩放比例得出的最佳准确率为 98.65%。此外,从有关 DRD 数据集的报告结果来看,AOMobileNet 被认为是一个适用于这一问题的模型,因为它在 "南科大-南师大数据集 "数据集上的准确率为 95.80%,优于其他改进的 CNN 模型。
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来源期刊
Soft Computing
Soft Computing 工程技术-计算机:跨学科应用
CiteScore
8.10
自引率
9.80%
发文量
927
审稿时长
7.3 months
期刊介绍: Soft Computing is dedicated to system solutions based on soft computing techniques. It provides rapid dissemination of important results in soft computing technologies, a fusion of research in evolutionary algorithms and genetic programming, neural science and neural net systems, fuzzy set theory and fuzzy systems, and chaos theory and chaotic systems. Soft Computing encourages the integration of soft computing techniques and tools into both everyday and advanced applications. By linking the ideas and techniques of soft computing with other disciplines, the journal serves as a unifying platform that fosters comparisons, extensions, and new applications. As a result, the journal is an international forum for all scientists and engineers engaged in research and development in this fast growing field.
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