Encouraging Engineering Design Teams to Engage in Expert Iterative Practices with Tools to Support Coaching in Problem-Based Learning

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Bibliographic Details
Title: Encouraging Engineering Design Teams to Engage in Expert Iterative Practices with Tools to Support Coaching in Problem-Based Learning
Language: English
Authors: Rees Lewis, Daniel G. (ORCID 0000-0002-0928-3831), Carlson, Spencer E., Riesbeck, Christopher K., Gerber, Elizabeth M., Easterday, Matthew W.
Source: Journal of Engineering Education. 2023 112(4):1012-1031.
Availability: Wiley. Available from: John Wiley & Sons, Inc. 111 River Street, Hoboken, NJ 07030. Tel: 800-835-6770; e-mail: cs-journals@wiley.com; Web site: https://www.wiley.com/en-us
Peer Reviewed: Y
Page Count: 20
Publication Date: 2023
Sponsoring Agency: National Science Foundation (NSF), Division of Information and Intelligent Systems (IIS)
Contract Number: 1530833
1530837
Document Type: Journal Articles
Reports - Research
Descriptors: Engineering, Design, Coaching (Performance), Problem Based Learning, Problem Solving, Expertise, Teaching Methods, Metacognition, Engineering Education, Cooperative Learning, Planning, Risk
DOI: 10.1002/jee.20554
ISSN: 1069-4730
2168-9830
Abstract: Background: To create design solutions experienced engineering designers engage in expert iterative practice. Researchers find that students struggle to learn this critical engineering design practice, particularly when tackling real-world engineering design problems. Purpose/Hypothesis: To improve our ability to teach iteration, this study contributes (i) a new teaching approach to improve student teams' expert iterative practices, and (ii) provides support to existing frameworks--chiefly the Design Risk Framework--that predict the key metacognitive processes we should support to help students to engage in expert iterative practices in real-world engineering design. Design/Method: In a 3-year design-based research study, we developed a novel approach to teaching students to take on real-world engineering design projects with real clients, users, and contexts to engage in expert iterative practices. Results: Study 1 confirms that student teams struggle to engage in expert iterative practices, even when supported by problem-based learning (PBL) coaching. Study 2 tests our novel approach, Planning-to-Iterate, which uses (i) templates, (ii) guiding questions to help students to define problem and solution elements, and (iii) risk checklists to help student teams to identify risks. We found that student teams using Planning-to-Iterate engaged in more expert iterative practices while receiving less PBL coaching. Conclusions: This work empirically tests a design argument--a theory for a novel teaching approach--that augments PBL coaching and helps students to identify risks and engage in expert iterative practices in engineering design projects.
Abstractor: As Provided
Entry Date: 2023
Accession Number: EJ1396465
Database: ERIC
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