TY - JOUR
T1 - Developing a Framework for Blended Design-Based Learning in a First-Year Multidisciplinary Design Course
AU - Leung, Jac Ka Lok
AU - Chu, Samuel Kai Wah
AU - Pong, Ting Chuen
AU - Ng, Davy Tsz Kit
AU - Qiao, Shen
N1 - Publisher Copyright:
© 1963-2012 IEEE.
PY - 2022/5/1
Y1 - 2022/5/1
N2 - Contribution: While design project courses offer first-year students a practical introduction to engineering, a portion of class time is usually spent on lecturing foundational knowledge instead of practicing engineering design. This article presents a blended design-based learning (bDBL) approach that makes class time more efficient and explores the changes in students' design competencies and intrinsic motivations. Background: Current approaches to cornerstone courses face challenges, such as heavy faculty involvement and heterogeneity of design projects. bDBL draws on the self-directedness of blended learning and the open-ended nature of design-based learning which may be a worthwhile instructional approach for cornerstone courses. Intended Outcomes: bDBL was applied in a cornerstone course that intended to let students understand what engineers do and motivate them in the field. Students' design competencies and intrinsic motivations were examined through pre- and post-self-reported surveys. Focus group interviews were conducted to elicit students' views on bDBL. Application Design: Online self-paced learning modules were created to deliver knowledge-based content. Students transfer what they learned from the online modules through launch-level demos. Then, students spend most of the class time working on team design projects to learn through mistakes and receive first-hand feedback from peers and instructors. Findings: From Fall 2018 to Spring 2020, 201 first-year students experienced bDBL. Quantitative results demonstrated increases in students' design competencies and intrinsic motivations. Four themes representing both positive and negative views of bDBL were elicited. A conceptual framework that connects the theoretical foundation, design elements, examined effects, and students' perceptions, is proposed.
AB - Contribution: While design project courses offer first-year students a practical introduction to engineering, a portion of class time is usually spent on lecturing foundational knowledge instead of practicing engineering design. This article presents a blended design-based learning (bDBL) approach that makes class time more efficient and explores the changes in students' design competencies and intrinsic motivations. Background: Current approaches to cornerstone courses face challenges, such as heavy faculty involvement and heterogeneity of design projects. bDBL draws on the self-directedness of blended learning and the open-ended nature of design-based learning which may be a worthwhile instructional approach for cornerstone courses. Intended Outcomes: bDBL was applied in a cornerstone course that intended to let students understand what engineers do and motivate them in the field. Students' design competencies and intrinsic motivations were examined through pre- and post-self-reported surveys. Focus group interviews were conducted to elicit students' views on bDBL. Application Design: Online self-paced learning modules were created to deliver knowledge-based content. Students transfer what they learned from the online modules through launch-level demos. Then, students spend most of the class time working on team design projects to learn through mistakes and receive first-hand feedback from peers and instructors. Findings: From Fall 2018 to Spring 2020, 201 first-year students experienced bDBL. Quantitative results demonstrated increases in students' design competencies and intrinsic motivations. Four themes representing both positive and negative views of bDBL were elicited. A conceptual framework that connects the theoretical foundation, design elements, examined effects, and students' perceptions, is proposed.
KW - Blended learning (BL)
KW - design-based learning (DBL)
KW - first-year engineering (FYE)
KW - multidisciplinary design
UR - http://www.scopus.com/inward/record.url?scp=85116883694&partnerID=8YFLogxK
U2 - 10.1109/TE.2021.3112852
DO - 10.1109/TE.2021.3112852
M3 - Article
AN - SCOPUS:85116883694
SN - 0018-9359
VL - 65
SP - 210
EP - 219
JO - IEEE Transactions on Education
JF - IEEE Transactions on Education
IS - 2
ER -