An Efficient Prediction System for Coronary Heart Disease Risk Using Selected Principal Components and Hyperparameter Optimization

Medical science-related studies have reinforced that the prevalence of coronary heart disease which is associated with the heart and blood vessels has been the most significant cause of health loss and death globally. Recently, data mining and machine learning have been used to detect diseases based...

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Published inApplied sciences Vol. 13; no. 1; p. 118
Main Authors Reddy, Karna Vishnu Vardhana, Elamvazuthi, Irraivan, Aziz, Azrina Abd, Paramasivam, Sivajothi, Chua, Hui Na, Pranavanand, Satyamurthy
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2023
Subjects
Accuracy
Algorithms
Blood vessels
Cardiovascular disease
Cardiovascular diseases
Comparative studies
Coronary artery disease
coronary heart disease
correlation-based feature selection
Datasets
Feature selection
Health risks
Heart
Heart diseases
hyperparameter optimization
Machine learning
machine learning classification
Medical science
Optimization
principal components
risk predication model
Support vector machines
Variables
Veins & arteries
Switzerland
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Summary:Medical science-related studies have reinforced that the prevalence of coronary heart disease which is associated with the heart and blood vessels has been the most significant cause of health loss and death globally. Recently, data mining and machine learning have been used to detect diseases based on the unique characteristics of a person. However, these techniques have often posed challenges due to the complexity in understanding the objective of the datasets, the existence of too many factors to analyze as well as lack of performance accuracy. This research work is of two-fold effort: firstly, feature extraction and selection. This entails extraction of the principal components, and consequently, the Correlation-based Feature Selection (CFS) method was applied to select the finest principal components of the combined (Cleveland and Statlog) heart dataset. Secondly, by applying datasets to three single and three ensemble classifiers, the best hyperparameters that reflect the pre-eminent predictive outcomes were investigated. The experimental result reveals that hyperparameter optimization has improved the accuracy of all the models. In the comparative studies, the proposed work outperformed related works with an accuracy of 97.91%, and an AUC of 0.996 by employing six optimal principal components selected from the CFS method and optimizing parameters of the Rotation Forest ensemble classifier.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13010118