Kidney Impairment Prediction Due to Diabetes Using Extended Ensemble Learning Machine Algorithm

International journal of machine learning and computing Pub Date : 2023-07-05 DOI:10.53759/7669/jmc202303027

Deepa Devasenapathy, V. K, Anna Alphy, F. D. Shadrach, Jayaraj Velusamy, Kathirvelu M

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引用次数: 1

Abstract

Diabetes is the main cause for diabetic kidney disease (dkd), which affects the filtering units of kidneys slowly and stops it’s function finally. This consequence is common for both genetic based (type 1) and lifestyle based (type 2) diabetes. However, type 2 diabetes plays a significant influence in increased urine albumin excretion, decreased glomerular filtration rate (gfr), or both. These causes failure of kidneys stage by stage. Herein, the implementation of extended ensemble learning machine algorithm (eelm) with improved elephant herd optimization (ieho) algorithm helps in identifying the severity stages of kidney damage. The data preprocessing and feature extraction process extracts three vital features such as period of diabetes (in year), gfr (glomerular filtration rate), albumin (creatinine ratio) for accurate prediction of kidney damage due to diabetes. Predicted result ensures the better outcome such as an accuracy of 98.869%, 97.899 % of precision ,97.993 % of recall and f-measure of 96.432 % as a result.

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利用扩展集成学习机算法预测糖尿病肾损害

糖尿病是糖尿病肾病(dkd)的主要病因，它缓慢地影响肾脏的过滤单元并最终使其功能停止。这种结果在遗传性(1型)和生活方式型(2型)糖尿病中都很常见。然而，2型糖尿病对尿白蛋白排泄增加、肾小球滤过率(gfr)降低或两者兼有显著影响。这些会导致肾脏逐渐衰竭。本文将扩展集成学习机算法(eelm)与改进的象群优化(ieho)算法相结合，有助于识别肾脏损伤的严重程度。数据预处理和特征提取过程提取糖尿病病程(年)、肾小球滤过率(gfr)、白蛋白(肌酐比)三个重要特征，准确预测糖尿病肾损害。预测结果保证了较好的结果，准确率为98.869%，精密度为97.899%，召回率为97.993%，f-measure为96.432%。

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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International journal of machine learning and computing

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