The Role of E-Learning Readiness on Workload: Perspective Engineering and non-Engineering Students

International Journal of Innovation in Enterprise System Pub Date : 2022-01-31 DOI:10.25124/ijies.v6i01.165

L. W. Suwarsono, A. Aisha, F. N. Nugraha

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Abstract

Changes in learning methods from face-to-face to online learning due to pandemic covid-19 have an impact on student readiness in learning and the mental workload felt by students, that can determine the achievement of the learning process. There are differences in the characteristics of learning demands in engineering and non-engineering majors. Therefore, this study aims to evaluate the level of readiness and mental workload of students during the implementing full online learning based on the characteristics of the education department. Data collected by distributing online questionnaires to 180 students (90 students majoring in engineering and 90 students in non-engineering). Self-directed learning (SDL), technical readiness (TC), and comfort with non-face to face communication (CFT) used to measure e-learning readiness, meanwhile NASA TLX used to measure mental workload. Results showed differences between engineering and non-engineering students, especially in the Self-Directed Learning (p < 0,05). Non-engineering students perceived that they are more prepared to manage their learning process independently during online learning. Related to mental workload students perceive higher demands from online learning activities, the engineering group had higher level of time-related demands. According to correlation testing there was a negative and significant correlation between the self-directed learning dimension scores of E-Learning Readiness and the NASA TLX scores (p < 0,05). These results indicated the role of student’s e-learning readiness, especially self-directed learning readiness can reduce perceptions related to the mental workload experienced by engineering students in online learning. This condition was not applied on non-engineering students. Future study needed to explore the characteristics of study programs that relate to both variables and if the condition applied on other learning conditions such as hybrid learning.

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电子学习准备对工作量的作用:透视工程与非工程学生

由于covid-19大流行，学习方法从面对面学习到在线学习的变化对学生的学习准备和学生感受到的心理工作量产生了影响，这可以决定学习过程的成果。工科学生与非工科学生的学习需求特征存在差异。因此，本研究旨在根据教育部门的特点，评估学生在实施全在线学习过程中的准备程度和心理负荷。通过向180名学生(90名工程专业学生和90名非工程专业学生)发放在线问卷收集数据。采用自主学习(SDL)、技术准备(TC)和非面对面交流的舒适度(CFT)来衡量电子学习准备程度，同时采用NASA TLX来衡量心理工作量。结果显示，工科学生与非工科学生在自主学习方面存在显著差异(p < 0.05)。非工程专业的学生认为，他们在在线学习中更能独立地管理自己的学习过程。在心理负荷方面，学生对在线学习活动的要求较高，工科组的时间要求较高。经相关检验，自主学习维度E-Learning Readiness得分与NASA TLX得分呈显著负相关(p < 0.05)。这些结果表明，学生的在线学习准备，特别是自主学习准备可以减少工程专业学生在在线学习中所经历的与心理负荷相关的感知。这个条件不适用于非工程专业的学生。未来的研究需要探索与这两个变量相关的学习计划的特征，以及该条件是否适用于其他学习条件，如混合学习。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Innovation in Enterprise System

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