Adaptivity or agency? Educational technology design for conceptual learning of materials science

IF 2 3区 工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Nutnicha Nigon, Julie D. Tucker, Thomas W. Ekstedt, Brandon C. Jeong, Dana C. Simionescu, Milo D. Koretsky
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Abstract

As the use of computers in education increases, adaptive learning platforms are becoming more common. However, these adaptive systems are typically designed to support acquisition of declarative knowledge and/or procedural fluency but rarely address conceptual learning. In this work, we developed the Crystallography Adaptive Learning Module (CALM) for materials science to provide students a tool for individualized conceptual learning. We used a randomized quasi-experimental design comparing two instructional designs with different levels of computer-provided direction and student agency. Undergraduate students were randomly assigned to one of two different instructional designs; one design had students complete an individualized, adaptive path using the CALM (N = 80), and the other gave students the freedom to explore CALM's learning resources but with limited guidance (N = 85). Within these two designs, we also investigated students among different cumulative grade point average (GPA) groups. While there was no statistically significant difference in the measure of conceptual understanding between instructional designs or among the groups with the same GPA, there is evidence to suggest the CALM improves conceptual understanding of students in the middle GPA group. Students using CALM also showed increased participation with the interactive learning videos compared to the other design. The number of videos watched in each instructional condition aligns with overall academic performance as the low GPA group received the most assigned supplements but watched the least videos by choice. This study provides insight for technology developers on how to develop educational adaptive technology systems that provide a proper level of student agency to promote conceptual understanding in challenging STEM topics.

适应性还是能动性?材料科学概念学习的教育技术设计
随着计算机在教育领域的应用越来越广泛,自适应学习平台也变得越来越普遍。然而,这些自适应系统通常旨在支持陈述性知识和/或程序流畅性的学习,却很少涉及概念学习。在这项工作中,我们为材料科学开发了晶体学自适应学习模块(CALM),为学生提供个性化概念学习工具。我们采用了随机准实验设计,比较了两种具有不同计算机指导水平和学生自主性的教学设计。本科生被随机分配到两种不同的教学设计中的一种;一种设计是让学生使用 CALM 完成个性化的自适应路径(N = 80),另一种设计是让学生自由探索 CALM 的学习资源,但只提供有限的指导(N = 85)。在这两种设计中,我们还对不同累积平均学分绩点(GPA)组别的学生进行了调查。虽然不同教学设计或相同 GPA 的组别之间在概念理解能力的测量上没有明显的统计学差异,但有证据表明,CALM 提高了中等 GPA 组别学生的概念理解能力。与其他设计相比,使用 CALM 的学生对互动学习视频的参与度也有所提高。在每种教学条件下观看视频的数量与总体学习成绩相一致,因为 GPA 低的组别获得了最多的指定补充,但选择观看的视频却最少。这项研究为技术开发人员提供了如何开发教育自适应技术系统的启示,该系统可提供适当程度的学生代理,以促进对具有挑战性的 STEM 主题的概念理解。
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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来源期刊
Computer Applications in Engineering Education
Computer Applications in Engineering Education 工程技术-工程:综合
CiteScore
7.20
自引率
10.30%
发文量
100
审稿时长
6-12 weeks
期刊介绍: Computer Applications in Engineering Education provides a forum for publishing peer-reviewed timely information on the innovative uses of computers, Internet, and software tools in engineering education. Besides new courses and software tools, the CAE journal covers areas that support the integration of technology-based modules in the engineering curriculum and promotes discussion of the assessment and dissemination issues associated with these new implementation methods.
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