Diabetes Analysis with a Dataset Using Machine Learning

V. Chang; S. Javvaji; Q.A. Xu; Karl Hall; S. Guan

doi:10.1007/978-3-031-04597-4_8

Diabetes Analysis with a Dataset Using Machine Learning

V. Chang, S. Javvaji, Q.A. Xu, Karl Hall, S. Guan

Research output: Chapter in Book/Published conference output › Chapter

Abstract

Diabetes is a disease that actually impacts the capacity of the body to obtain blood glucose, which is usually referred to as blood sugar. At the end of 2019, a new public health problem (COVID-19) emerged. This disease has greatly harmed people with diabetes. Therefore, we intend to make use of data mining algorithms to prevent death and improve the quality of life through the prediction of diabetes. In this paper, four different algorithms have been used to analyze Diabetes from DAT260x Lab01: Logistic, Decision Tree Classifier, Xgboost and SVC. The models are evaluated for which algorithm is much effective. The paper then provides a quick overview of both the set of data and the fieldwork carried out on the subject. In the adjoining step, the dataset and its features are discussed. In addition, the paper explains the four algorithms and virtual environments that have been used to clarify the variables, which have the largest impact on raw data. The findings are obtained by evaluating the confusion matrix applied to the whole selected algorithm. The paper outlines the full observations and conclusions taken based on the results.

Original language	English
Title of host publication	Artificial Intelligence and Machine Learning Methods in COVID-19 and Related Health Diseases
Publisher	Springer
Pages	161-188
Number of pages	28
Edition	1
ISBN (Electronic)	978-3-031-04597-4
ISBN (Print)	978-3-031-04596-7
DOIs	https://doi.org/10.1007/978-3-031-04597-4_8
Publication status	Published - 29 Jun 2022

Publication series

Name	Studies in Computational Intelligence
Volume	1023
ISSN (Print)	1860-949X
ISSN (Electronic)	1860-9503

Bibliographical note

Funding Information:
This work is partly supported by VC Research (VCR 0000156).

Keywords

Decision tree classifier
Logistic algorithm
Machine learning
SVC
Xgboost algorithm

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10.1007/978-3-031-04597-4_8

Cite this

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title = "Diabetes Analysis with a Dataset Using Machine Learning",

abstract = "Diabetes is a disease that actually impacts the capacity of the body to obtain blood glucose, which is usually referred to as blood sugar. At the end of 2019, a new public health problem (COVID-19) emerged. This disease has greatly harmed people with diabetes. Therefore, we intend to make use of data mining algorithms to prevent death and improve the quality of life through the prediction of diabetes. In this paper, four different algorithms have been used to analyze Diabetes from DAT260x Lab01: Logistic, Decision Tree Classifier, Xgboost and SVC. The models are evaluated for which algorithm is much effective. The paper then provides a quick overview of both the set of data and the fieldwork carried out on the subject. In the adjoining step, the dataset and its features are discussed. In addition, the paper explains the four algorithms and virtual environments that have been used to clarify the variables, which have the largest impact on raw data. The findings are obtained by evaluating the confusion matrix applied to the whole selected algorithm. The paper outlines the full observations and conclusions taken based on the results.",

keywords = "Decision tree classifier, Logistic algorithm, Machine learning, SVC, Xgboost algorithm",

author = "V. Chang and S. Javvaji and Q.A. Xu and Karl Hall and S. Guan",

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doi = "10.1007/978-3-031-04597-4_8",

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T1 - Diabetes Analysis with a Dataset Using Machine Learning

AU - Chang, V.

AU - Javvaji, S.

AU - Xu, Q.A.

AU - Hall, Karl

AU - Guan, S.

N1 - Funding Information: This work is partly supported by VC Research (VCR 0000156).

PY - 2022/6/29

Y1 - 2022/6/29

N2 - Diabetes is a disease that actually impacts the capacity of the body to obtain blood glucose, which is usually referred to as blood sugar. At the end of 2019, a new public health problem (COVID-19) emerged. This disease has greatly harmed people with diabetes. Therefore, we intend to make use of data mining algorithms to prevent death and improve the quality of life through the prediction of diabetes. In this paper, four different algorithms have been used to analyze Diabetes from DAT260x Lab01: Logistic, Decision Tree Classifier, Xgboost and SVC. The models are evaluated for which algorithm is much effective. The paper then provides a quick overview of both the set of data and the fieldwork carried out on the subject. In the adjoining step, the dataset and its features are discussed. In addition, the paper explains the four algorithms and virtual environments that have been used to clarify the variables, which have the largest impact on raw data. The findings are obtained by evaluating the confusion matrix applied to the whole selected algorithm. The paper outlines the full observations and conclusions taken based on the results.

AB - Diabetes is a disease that actually impacts the capacity of the body to obtain blood glucose, which is usually referred to as blood sugar. At the end of 2019, a new public health problem (COVID-19) emerged. This disease has greatly harmed people with diabetes. Therefore, we intend to make use of data mining algorithms to prevent death and improve the quality of life through the prediction of diabetes. In this paper, four different algorithms have been used to analyze Diabetes from DAT260x Lab01: Logistic, Decision Tree Classifier, Xgboost and SVC. The models are evaluated for which algorithm is much effective. The paper then provides a quick overview of both the set of data and the fieldwork carried out on the subject. In the adjoining step, the dataset and its features are discussed. In addition, the paper explains the four algorithms and virtual environments that have been used to clarify the variables, which have the largest impact on raw data. The findings are obtained by evaluating the confusion matrix applied to the whole selected algorithm. The paper outlines the full observations and conclusions taken based on the results.

KW - Decision tree classifier

KW - Logistic algorithm

KW - Machine learning

KW - SVC

KW - Xgboost algorithm

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M3 - Chapter

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SP - 161

EP - 188

BT - Artificial Intelligence and Machine Learning Methods in COVID-19 and Related Health Diseases

PB - Springer

ER -

Diabetes Analysis with a Dataset Using Machine Learning

Abstract

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Keywords

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