An Innovative Artificial Intelligence-Based Extreme Learning Machine Based on Random Forest Classifier for Diagnosed Diabetes Mellitus

Authors

  • Dimas Chaerul Ekty Saputra (SCOPUS ID: 58134248400), Khon Kaen University
  • Elvaro Islami Muryadi Adiwangsa University of Jambi
  • Raksmey Phann Institute of Technology of Cambodia
  • Irianna Futri Khon Kaen University
  • Lismawati Lismawati Adiwangsa University of Jambi

DOI:

https://doi.org/10.26555/jiteki.v10i1.28690

Keywords:

Diabetes, Extreme Learning Machine Forest, Machine Learning, Deep Learning, Artificial Intelligence

Abstract

Since 2014, the World Health Organization has accumulated data indicating that 8.5% of 18-year-olds and older have been diagnosed with diabetes. In 2019, diabetes caused the lives of 1.5 million people worldwide, with those under the age of 70 accounting for 48% of all diabetes-related deaths. It is estimated that diabetes causes an additional 460,000 deaths each year due to renal failure and that hyperglycemia contributes to about 20% of all cardiovascular disease-related deaths. Diabetes may have contributed to a 3% rise in the age-adjusted death rate between the years 2000 and 2019. In recent years, the fatality rate attributable to diabetes has increased by 13% in low- and middle-income countries. Statistics collected by the World Health Organization indicate that the number of persons diagnosed with diabetes has increased from 108 million in 1980 to 422 million in 2014. The objective of this study is to construct a model capable of diagnosing persons with diabetes reliably, correctly, and consistently. This research used secondary data offered by Kaggle. The original data came from the National Institute of Diabetes and Digestive and Kidney Diseases. Each of the up to 768 data points consists of nine characteristics and two outputs, such as diabetes and non-diabetes in the provided example. In this study, a single algorithm is constructed by integrating two separate algorithms. Random forest algorithms, which are based on machine learning, and extreme learning machines, which are based on deep learning, have generated extraordinarily accurate results. When the confusion matrix is used, 98.05% accuracy is attained. Therefore, it is feasible to conclude that the suggested method was successful in completing an adequate analysis and classifying the data.

Author Biographies

Dimas Chaerul Ekty Saputra, (SCOPUS ID: 58134248400), Khon Kaen University

Department of Computer Science and Information Technology

Elvaro Islami Muryadi, Adiwangsa University of Jambi

Department of Public Health

Raksmey Phann, Institute of Technology of Cambodia

Department of Mathematics and Statistics

Irianna Futri, Khon Kaen University

Department of International Technology and Innovation Management

Lismawati Lismawati, Adiwangsa University of Jambi

Department of Midwifery

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Published

2024-05-15

How to Cite

[1]
D. C. E. Saputra, E. I. Muryadi, R. Phann, I. Futri, and L. Lismawati, “An Innovative Artificial Intelligence-Based Extreme Learning Machine Based on Random Forest Classifier for Diagnosed Diabetes Mellitus”, J. Ilm. Tek. Elektro Komput. Dan Inform, vol. 10, no. 1, pp. 173–187, May 2024.

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Section

Articles