Integrating the engineering design process into the conceive-design-implement-operate model for promoting high school students’ STEM competence

Feifei Xi, Hongliang Ma, Zhongling Pi, Yuhan Dong, Junmei Sun, Rucheng Jin
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Abstract

Recently, integrated science, technology, engineering, and mathematics (STEM) education has gained sustained attention in K-12 settings, and engineering design-based pedagogy has become a key issue. Compared with rich research in higher education, relatively few studies are performed on engineering education in K-12 schools. In this study, we combined Conceive-Design-Implement-Operate (CDIO) model with the engineering design process (EDP), naming EDP-CDIO, aiming to promote high school students’ STEM competence and compare its effects with the conventional CDIO approach. A pretest–posttest nonequivalent group design was conducted among 64 eleventh-grade students with eleven lessons. Quantitative data were collected via a pretest and posttest, and qualitative data were collected via artifacts and semistructured interviews. The repeated-measures analysis of variance and epistemic network analysis revealed that, compared with the conventional CDIO approach, the EDP-CDIO model significantly improved students’ STEM knowledge, skills, and attitudes and developed more comprehensive epistemic networks in STEM competence. These findings provide a reference for K-12 STEM teachers, encouraging them to implement the EDP-CDIO model more frequently in the classroom, especially with the iterative design process.

Abstract Image

将工程设计过程纳入 "构思-设计-实施-操作 "模式,提高高中生的 STEM 能力
近来,科学、技术、工程和数学(STEM)综合教育在 K-12 环境中得到了持续的关注,以 工程设计为基础的教学法已成为一个关键问题。与高等教育领域的丰富研究相比,针对 K-12 学校工程教育的研究相对较少。本研究将 "构思-设计-实施-操作"(CDIO)模式与工程设计过程(EDP)相结合,命名为 "EDP-CDIO",旨在提高高中生的STEM能力,并比较其与传统的CDIO方法的效果。在 64 名十一年级学生中进行了前测-后测非等效组设计,共 11 节课。通过前测和后测收集定量数据,通过人工制品和半结构化访谈收集定性数据。重复测量方差分析和认识网络分析显示,与传统的 CDIO 方法相比,EDP-CDIO 模式显著提高了学生的 STEM 知识、技能和态度,并发展了更全面的 STEM 能力认识网络。这些发现为 K-12 STEM 教师提供了参考,鼓励他们在课堂上更多地实施 EDP-CDIO 模式,尤其是迭代设计过程。
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