Accuracy and performance analysis for classification algorithms based on biomedical datasets

Al-Hameli, Bassam Abdo and Alsewari, Abdulrahman A. and Khubrani, Mousa and Fakhreldin, Mohammoud (2021) Accuracy and performance analysis for classification algorithms based on biomedical datasets. In: IEEE 2021 International Conference on Software Engineering & Computer Systems and 4th International Conference on Computational Science and Information Management (ICSECS-ICOCSIM), 24-26 August 2021 , Pekan, Pahang, Malaysia. pp. 620-624.. ISBN 978-1-6654-1407-4

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Diseases chronic, including heart disease, cancer, diabetes, and obesity, are the main causes of mortality in the United States and accounting for and consuming the majority of the country’s healthcare expenditure. As indicated by recent researches. The main reason for the emergence of these diseases prominently is their relationship to each other, where diabetes is one of the causes of cancer and heart disease, hepatitis also is associated with diabetes, and heart disease. This paper focuses on data mining and machine learning techniques in healthcare classification and prediction of diseases and rebuild disease detection systems (DDS). The study suggests finding a classifier among the most common kinds of classification algorithms within a combined approach represent in Bayesian, Trees, Rules, Function, and lazy algorithms to automate a better performance of early detection of diseases from the medical datasets. This paper presents and analyzes five different machine learning (ML) algorithms: Function-based Neural Network (MLP) algorithm. Trees based Decision Tree (ID3) algorithm, Bayesian Theorem based Hidden Naïve Bayes (HNB) algorithm. Lazy based k-nearest neighbors (IBK) algorithm, and Rules-based OneR algorithm. The analysis is based on four benchmark datasets in the healthcare sector, including the Pima Indian Diabetes PID, the Breast Cancer, Heart Cleveland, and Hepatitis Datasets, which were obtained from several ML repositories. The results show that the HNB predicts the best result with a relatively higher Precision, AUROC Statistic, highest accuracy, and performance when compared to MLP, IBK, OneR, ID3 algorithms.

Item Type: Conference or Workshop Item (Lecture)
Uncontrolled Keywords: Accuracy, Machine Learning, Hidden Naive Bayes, disease detection system
Subjects: Q Science > QA Mathematics
Faculty/Division: Centre of Excellence: IBM Centre of Excellence
Institute of Postgraduate Studies
Faculty of Computing
Depositing User: Noorul Farina Arifin
Date Deposited: 24 Nov 2021 09:15
Last Modified: 24 Nov 2021 09:15
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