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Fostering innovation through bio-inspired projects in engineering design education
Published online by Cambridge University Press: 16 May 2024
Abstract
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This paper discusses the C-K theory approach and developing templates for student's use in design courses, specifically for the conceptual design phase. Examples of C-K templates are reviewed to demonstrate the process leading to a design solution. Analysis of student's work using these templates are presented and discussed with respect to design learning attributes and design innovation during the conceptual design. Student reflections from their final design reports indicated that students did develop knowledge and skills in bio-inspired design, collaboration, and interdisciplinary mindsets.
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- Design Education
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- Creative Commons
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use or in order to create a derivative work.- Copyright
- The Author(s), 2024.
References
Bruck, H.A., et al. ., (2007) Training Mechanical Engineering Students to Utilize Biological Inspiration During Product Development. Bioinspiration and Biomimetics, 2: p. S198- S209.CrossRefGoogle ScholarPubMed
Dominguez, E. P. (2023) Beyond the Old Game Design: A new Paradigm in Game Studies through C-K Theory. Proceedings of DiGRA 2023.Google Scholar
Glier, M.W., McAdams, D.A., and Linsey, J.S.. (2011) Concepts in Biomimetic Design: Methods and Tools to Incorporate into a Biomimetic Design Course. in ASME 2011 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference. Washington, D.C.CrossRefGoogle Scholar
Goel, A. (2007) Center for Biological Inspired Design.; Available from: http://www.cbid.gatech.edu/.Google Scholar
Graceraj, P. P.; Nagel, J.K.; Rose, C.S.; Pidaparti, R.M. Investigation of C-K Theory Based Approach for Innovative Solutions in Bioinspired Design. Designs 2019, 3, 39. https://doi.org/10.3390/designs3030039Google Scholar
Hatchuel, A.; Weil, B. (2009) C-K design theory: an advanced formulation, Research in Engineering Design, 19, 181-192.CrossRefGoogle Scholar
Hatchuel, A.; Weil, B. (2003) A New Approach of Innovative Design: An Introduction to C-K Theory, Proceedings of Conference, A New Approach of Innovative Design: An Introduction to C-K Theory, Stockholm.Google Scholar
Lynch-Caris, T.M., Weaver, J., and Kleinke, D.K.. (2012) Biomimicry innovation as a tool for design. in American Society for Engineering Education Annual Conference and Exposition. San Antonio, TX.Google Scholar
Nagel, J.K.S., Rose, C., Beverly, C.L., Pidaparti, R. (2019) Bio-inspired Design Pedagogy in Engineering, Chapter 7 in Design Education Today, Schaefer, D., Coates, G., Eckert, C. (eds.), Springer Nature, ISBN 9783030171339.Google Scholar
Nagel, J. and Pidaparti, R. M., (2016) Significance, Prevalence and Implications for Bio-Inspired Design Courses in the Undergraduate Engineering Curriculum. V003T04A009.CrossRefGoogle Scholar
Nagel, J., et al. ., (2016) Teaching bioinspired design using C–K theory. Vol. 6.CrossRefGoogle Scholar
Yen, J., et al. , (2014) Adaptive Evolution of Teaching Practices in Biologically Inspired Design, in Biologically Inspired Design: Computational Methods and Tools, Goel, A.K., McAdams, D.A., and Stone, R.B., Editors. Springer: New York.Google Scholar
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