Machine Learning based Exploratory Data Analysis (EDA) and Diagnosis of Chronic Kidney Disease (CKD)

Q2 Computer Science

EAI Endorsed Transactions on Pervasive Health and Technology Pub Date : 2024-03-22 DOI:10.4108/eetpht.10.5512

Vaishali Mehta, N. Batra, Poonam, Sonali Goyal, Amandeep Kaur, K. V. Dudekula, Ganta Jacob Victor

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Abstract

INTRODUCTION: This research paper presents an exploratory data analysis (EDA) approach to diagnose Chronic Kidney Disease (CKD) using machine learning algorithms. OBJECTIVES: This paper focuses on early and accurate detection of CKD using a comprehensive dataset of clinical and laboratory parameters to minimize the risk of patients’ health complications with timely intervention through appropriate medications. METHODS: Machine Learning based prediction models including Naive Bayes, KNN, Logistic regression, decision tree, ensemble modelling, Random Forest and Ada Boost. RESULTS: The results indicate that the Naive Bayes algorithm achieved highest accuracy and sensitivity in detecting CKD. CONCLUSION: For reduced features and for binary class classification, Naive Bayes classifier gives best performance in terms of accuracy and computational cost. Other algorithms are good for multi-class classification but for binary class, they are little expensive than Naive Bayes.

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基于机器学习的探索性数据分析（EDA）与慢性肾病（CKD）诊断

简介：本研究论文介绍了一种探索性数据分析（EDA）方法，利用机器学习算法诊断慢性肾病（CKD）。目的：本文的重点是早期准确诊断慢性肾病：本文的重点是利用临床和实验室参数的综合数据集，早期准确地检测出慢性肾脏病，以便通过适当的药物及时干预，将患者健康并发症的风险降至最低。方法：基于机器学习的预测模型，包括 Naive Bayes、KNN、逻辑回归、决策树、集合建模、随机森林和 Ada Boost。结果：结果表明，Naive Bayes 算法在检测 CKD 方面达到了最高的准确度和灵敏度。结论：对于减少特征和二元分类，Naive Bayes 分类器在准确性和计算成本方面表现最佳。其他算法在多类分类方面表现良好，但在二元分类方面，它们的成本比 Naive Bayes 低。

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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