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Bibliographic Details
Main Authors: Hui Shi, Nuodi Zhang, Secil Caskurlu, Hunhui Na
Format: Recurso educativo Open Access
Language:en
Published: 2025
Subjects:
Online Access:https://eric.ed.gov/?id=EJ1478135
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author Hui Shi
Nuodi Zhang
Secil Caskurlu
Hunhui Na
author_facet Hui Shi
Nuodi Zhang
Secil Caskurlu
Hunhui Na
Hui Shi
Nuodi Zhang
Secil Caskurlu
Hunhui Na
collection Education Resources Information Center
contents Applications of Machine Learning for At-Risk Student Prediction in Online Education: A 10-Year Systematic Review of Literature Hui Shi Nuodi Zhang Secil Caskurlu Hunhui Na Artificial Intelligence Natural Language Processing Technology Uses in Education At Risk Students Electronic Learning Online Courses Academic Failure Dropouts Learner Engagement Student Behavior Predictor Variables Generalizability Theory Background: The growth of online education has provided flexibility and access to a wide range of courses. However, the self-paced and often isolated nature of these courses has been associated with increased dropout and failure rates. Researchers employed machine learning approaches to identify at-risk students, but multiple issues have not been addressed concerning the definition of at-risk students, as well as the strengths and limitations of different machine learning models to predict at-risk students. Objectives: This systematic review aims to provide a comprehensive overview of the past 10-year research focusing on applying machine learning techniques for predicting at-risk students (i.e., failure, dropouts) in online learning environments. Methods: Studies were extracted from the ACM Digital Library, IEEE Xplore Digital Library, Web of Science, ERIC, ProQuest, and EBSCO. A total of 161 studies published from 2014 to 2024 were included in the review. Results and Conclusions: Findings revealed (1) four primary at-risk definitions outlined in the reviewed studies, each focusing on specific stages of student engagement and performance in a course; (2) most studies relied on student behavioural engagement and academic factors as at-risk predictors; (3) the adoption of deep learning and ensemble deep learning networks has significantly increased in the past 5 years, often outperforming classical machine learning models. While studies in which classical machine learning excelled often relied on the ensemble methodology and smaller sample sizes; (4) current machine learning practice evaluated by a list of criteria showed concerns regarding reproducibility, generalisability, and interpretability.
format Recurso educativo Open Access
id eric_EJ1478135
institution ERIC Institute of Education Sciences
language en
publishDate 2025
record_format eric
spellingShingle Applications of Machine Learning for At-Risk Student Prediction in Online Education: A 10-Year Systematic Review of Literature
Hui Shi
Nuodi Zhang
Secil Caskurlu
Hunhui Na
Artificial Intelligence
Natural Language Processing
Technology Uses in Education
At Risk Students
Electronic Learning
Online Courses
Academic Failure
Dropouts
Learner Engagement
Student Behavior
Predictor Variables
Generalizability Theory
Applications of Machine Learning for At-Risk Student Prediction in Online Education: A 10-Year Systematic Review of Literature Hui Shi Nuodi Zhang Secil Caskurlu Hunhui Na Artificial Intelligence Natural Language Processing Technology Uses in Education At Risk Students Electronic Learning Online Courses Academic Failure Dropouts Learner Engagement Student Behavior Predictor Variables Generalizability Theory Background: The growth of online education has provided flexibility and access to a wide range of courses. However, the self-paced and often isolated nature of these courses has been associated with increased dropout and failure rates. Researchers employed machine learning approaches to identify at-risk students, but multiple issues have not been addressed concerning the definition of at-risk students, as well as the strengths and limitations of different machine learning models to predict at-risk students. Objectives: This systematic review aims to provide a comprehensive overview of the past 10-year research focusing on applying machine learning techniques for predicting at-risk students (i.e., failure, dropouts) in online learning environments. Methods: Studies were extracted from the ACM Digital Library, IEEE Xplore Digital Library, Web of Science, ERIC, ProQuest, and EBSCO. A total of 161 studies published from 2014 to 2024 were included in the review. Results and Conclusions: Findings revealed (1) four primary at-risk definitions outlined in the reviewed studies, each focusing on specific stages of student engagement and performance in a course; (2) most studies relied on student behavioural engagement and academic factors as at-risk predictors; (3) the adoption of deep learning and ensemble deep learning networks has significantly increased in the past 5 years, often outperforming classical machine learning models. While studies in which classical machine learning excelled often relied on the ensemble methodology and smaller sample sizes; (4) current machine learning practice evaluated by a list of criteria showed concerns regarding reproducibility, generalisability, and interpretability.
title Applications of Machine Learning for At-Risk Student Prediction in Online Education: A 10-Year Systematic Review of Literature
topic Artificial Intelligence
Natural Language Processing
Technology Uses in Education
At Risk Students
Electronic Learning
Online Courses
Academic Failure
Dropouts
Learner Engagement
Student Behavior
Predictor Variables
Generalizability Theory
url https://eric.ed.gov/?id=EJ1478135