The accuracy of machine learning models relies on hyperparameter tuning: student result classification using random forest, randomized search, grid search, bayesian, genetic, and optuna algorithms

Hyperparameters play a critical role in analyzing predictive performance in machine learning models. They serve to strike a balance between overfitting and underfitting of research-independent features to prevent extremes. Manual tuning and automated techniques are employed to identify the optimal c...

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Bibliographic Details
Published in:Multimedia tools and applications 2024-02, Vol.83 (30), p.74349-74364
Main Authors: Rimal, Yagyanath, Sharma, Navneet, Alsadoon, Abeer
Format: Article
Language:English
Subjects:
Accuracy
Bayesian analysis
Classification
Computer Communication Networks
Computer Science
Data Structures and Information Theory
Genetic algorithms
Machine learning
Multimedia Information Systems
Optimization
Performance prediction
Permutations
Regression analysis
Regression models
Searching
Special Purpose and Application-Based Systems
Tuning
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Summary:Hyperparameters play a critical role in analyzing predictive performance in machine learning models. They serve to strike a balance between overfitting and underfitting of research-independent features to prevent extremes. Manual tuning and automated techniques are employed to identify the optimal combination and permutation to achieve the best model performance. This study explores the pursuit of the best fit through various hyperparameters. Following Logistic Regression analysis, this research compared Random Forest, Randomized search, Grid search, Genetic, Bayesian, and Optuna machine learning model tuning for the best accuracy of prediction the student The model accuracy was further assessed using confusion matrices and Receiver Operating Characteristic—Area Under the Curve (ROC-AUC) curves for student grade classification. The genetic algorithm's recommended hyperparameter tuning yielded the highest accuracy (82.5%) and AUC-ROC score (90%) for student result classification. Manual tuning with an estimator of 300, criterion entropy, max features of sqrt, and a minimum sample leaf of 10 achieved an accuracy of 81.1%, which closely resembled the performance randomized search cross-validation algorithm. The default random forest model scored the least accuracy (78%). However, this manual tuning process took a lesser time (3.66 s) to fit the model while grid search CV tuned 941.5 s. Hence, this research made significant contributions to optimizing various machine learning models using a range of hyperparameters for grade classification.
ISSN:1573-7721
1380-7501
1573-7721
DOI:10.1007/s11042-024-18426-2