HEALTH GUARD-A Multiple Disease Prediction Model Based on Machine learning
Abstract
The aim of the paper is to present a new approach
to predicting multiple lifestyle diseases such as diabetes and
heart disease using machine learning techniques. The proposed
approach is based on ensemble learning, genetic algorithm
based recursive feature elimination, and AdaBoost. The data is
preprocessed using the Multiple Imputation by Chained Equa
tions (MICE) technique to handle missing data. This technique
is used to impute missing values in the dataset by creating
multiple imputations and then combining them to create a final
dataset. The proposed approach also uses genetic algorithm-based
recursive feature elimination to determine the optimal feature
subset. This technique uses a genetic algorithm to iteratively
remove features from the dataset until the optimal subset is
found. The AdaBoost classification model is trained alongside
other predictive models for multi-disease prediction. AdaBoost is
an ensemble learning technique that combines mul- tiple weak
classifiers to create a strong classifier. An extensive comparative
study has been conducted to evaluate the effectiveness of the
proposed model. The results show that the proposed methodology
outperforms existing works in terms of prediction accuracy,
precision, and recall. Overall, this study demonstrates the effec
tiveness of ensemble learning and genetic algorithm-based feature
selection in predicting multiple diseases. The proposed approach
has the potential to improve disease prediction accuracy and help
healthcare professionals make more informed decisions.
Keywords:
AdaBoost, Machine learning
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Copyright (c) 2024 International Journal on Emerging Research Areas
This work is licensed under a Creative Commons Attribution 4.0 International License.
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