Students’ complex trajectories: exploring degree change and time to degree

IF 8.6 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH International Journal of Educational Technology in Higher Education Pub Date : 2024-01-29 DOI:10.1186/s41239-024-00438-5
João Pedro Pêgo, Vera Lucia Miguéis, Alfredo Soeiro
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Abstract

The complex trajectories of higher education students are deviations from the regular path due to delays in completing a degree, dropping out, taking breaks, or changing programmes. In this study, we investigated degree changing as a cause of complex student trajectories. We characterised cohorts of students who graduated with a complex trajectory and identified the characteristics that influenced the time to graduation. To support this predictive task, we employed machine learning techniques such as neural networks, support vector machines, and random forests. In addition, we used interpretable techniques such as decision trees to derive managerial insights that could prove useful to decision-makers. We validated the proposed methodology taking the University of Porto (Portugal) as case study. The results show that the time to degree (TTD) of students with and without complex trajectories was different. Moreover, the proposed models effectively predicted TTD, outperforming two benchmark models. The random forest model proved to be the best predictor. Finally, this study shows that the factors that best predict TTD are the median TTD and the admission regime of the programme of destination of transfer students, followed by the admission average of the previous programme. By identifying students who take longer to complete their studies, targeted interventions such as counselling and tutoring can be promoted, potentially improving completion rates and educational outcomes without having to use as many resources.

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学生的复杂轨迹:探索学位变化和获得学位的时间
高等教育学生的复杂轨迹是指由于延迟完成学位、退学、休学或转学而导致的偏离正常轨迹的现象。在本研究中,我们调查了导致学生轨迹复杂化的学位变更原因。我们描述了毕业轨迹复杂的学生群体的特征,并确定了影响毕业时间的特征。为了支持这项预测任务,我们采用了神经网络、支持向量机和随机森林等机器学习技术。此外,我们还使用了决策树等可解释技术,以获得对决策者有用的管理见解。我们以波尔图大学(葡萄牙)为案例,对所提出的方法进行了验证。结果表明,有复杂轨迹和没有复杂轨迹的学生获得学位的时间(TTD)是不同的。此外,所提出的模型能有效预测 TTD,优于两个基准模型。随机森林模型被证明是最佳预测模型。最后,本研究表明,最能预测 TTD 的因素是 TTD 中位数和转学生目的地课程的录取制度,其次是上一个课程的平均录取率。通过识别完成学业时间较长的学生,可以促进有针对性的干预措施,如咨询和辅导,从而有可能提高完成率和教育成果,而无需动用那么多资源。
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来源期刊
CiteScore
19.30
自引率
4.70%
发文量
59
审稿时长
76.7 days
期刊介绍: This journal seeks to foster the sharing of critical scholarly works and information exchange across diverse cultural perspectives in the fields of technology-enhanced and digital learning in higher education. It aims to advance scientific knowledge on the human and personal aspects of technology use in higher education, while keeping readers informed about the latest developments in applying digital technologies to learning, training, research, and management.
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