Tools to Incorporate Biomimetic into Product Design- A Review
T. Speck and O. Speck, “Process Sequences in Biomimetic Research,” WIT Transactions on Ecology and the Environment, vol. 114, no 9, pp. 3 -11, 2008.
J. M. O'Rourke, “Environmentally Sustainable Bioinspired Design: Critical Analysis and Trends.” M.S. thesis, Department of Mechanical Engineering, The University of Texas, Austin, 2013.
S. Vattam, M. Helms and A.K. Goel, “Biologically Inspired Design: A Macrocognitive Account,” in Proceedings of the ASME 2010 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, Montreal, Canada, 2010, pp. 129-138.
S. Vattam, M. Helms and A. K. Goel. (2007). Biologically inspired innovation in engineering design: a cognitive study [Online]. Available:
J. F. V. Vincent, O. A. Bogatyreva, N. R. Bogatyrev, A. Bowyer and A. K. Pahl, “Biomimetics: Its Practice and Theory”, Journal of Royal Society Interface, vol. 3, no.9, pp. 471–482, 2006.
L. Jiang and L. Feng, Bioinspired Intelligent Nanostructured Interfacial Materials. China: Chemical Industry Press, 2010.
W. Glier, “Evaluating Methods for Bioinspired Concept Generation”, in 24th International Conference on Design Theory and Methodology, Chicago, Illinois, USA, 2012, pp. 1-19.
A. K. Goel, “Biologically Inspired Design: A New Paradigm for AI Research on Computational Sustainability”, IEEE Intelligent Systems, vol. 28, no. 3, pp. 80-84, 2013.
A. Chakrabarti, P. Sarkar, B. Leelavathama and B. S. Nataraju, “A Functional representation for Aiding Biomimetic and Artificial Inspiration of New Ideas,” Artificial Intelligence for Engineering Design, Analysis and Manufacturing, vol. 19, no.2 pp. 113-132, 2005.
W. Glier, “Concepts in Biomimetic Design: Methods and Tools To Incorporate into Biomimetic Design Course,” in Proceedings of the ASME 2011 International Design Engineering Technical Conference & Computers and Information in Engineering Conference, Washington DC, USA, 2011, pp. 655-660.
T. Peters, “Nature as measure: The biomimicry guild,”Architectural Design, vol. 81, no.6, pp 44-47, 2005.
K. Fu, D. Moreno, M. Yang and K. L. Wood, “Bio-Inspired Design: An Overview Investigating Open Questions From the Broader Field of Design-by-Analogy,” Journal of Mechanical Design, vol. 136, no.11, pp. 9-27, 2014.
C. F. Salgueiredo. (2013). Modeling Biological Inspiration for Innovative Design [Online]. Available: http://i3.cnrs.fr/wp-content/uploads/2016/05/Freitas__conferenceI32013.pdf
J. Benyus, (2017). Biomimicry Institute [Online]. Available: https://biomimicry.org/
J. K. S. Nagel, “An Engineering to Biology Thesaurus for Engineering Design,” in Proceedings of the ASME 2010 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference IDETC/CIE0, Montreal, Quebec, Canada 2010, pp. 117-128.
A. K. Goel, S. Vattam, B. Wiltgen, and M. Helms, “Cognitive, collaborative, conceptual and creative—Four characteristics of the next generation of knowledge-based CAD systems: A study in biologically inspired design,” Journal Computer-Aided Design, vol. 44, no.10, pp. 879–900, 2012.
K. Tsujimoto, “A Method for Creative Behavioral Design Based on Analogy and Blending from Natural Things,” in ASME 2008 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Brooklyn, New York, 2008, pp. 3–6.
M. Grandas, “Supporting Creativity across Products, Services and Product-Service Systems through Design by Analogy,” in International Conference on Engineering Design ICED ‘15, Milan, Italy, 2015, pp. 3-4.
B. Wiltgen, “Learning Functional Models of Biological Systems for Biologically Inspired Design,” in Proceedings of the 2011 IEEE 11th International Conference on Advanced Learning Technologies., GA, USA, 2011, pp. 355-357.
M. Helms. (2011). DANE: Design by Analogy to Nature Engine [Online]. Available: http://dilab.cc.gatech.edu/dane/
S. Vattam, “DANE: Fostering Creativity in and through Biologically Inspired Design,” in Proceeding of 1st International Conference on Design Creativity, Kobe, Japan, 2010, pp. 115-122.
J. Benyus. (2006). The Biomimicry Institute – Inspiring Sustainable Innovation [Online]. Available: https://biomimicry.org/
J. E. Strassmann, E. Joan and D. C. Queller, “Insect societies as divided organisms: the complexities of purpose and cross-purpose,” in Proceedings of the national academy of sciences, vol. 104, 2007, pp. 8619-8626.
J. M. Deldin and M. Schuknecht, The Ask Nature Database: Enabling Solutions in Biomimetic Design. London: Springer, 2013.
I. Chiu and L. H. Shu, “Biomimetic Design through Natural Language Analysis to Facilitate Cross-Domain Information Retrieval,” Artificial Intelligence for Engineering Design, Analysis and Manufacturing, vol. 21, no.1, pp. 45-59, 2007.
H. Cheong, “Biologically Meaningful Keywords for Functional Terms of the Functional Basis,”ASME Journal of Mechanical Design, vol. 133, no. 2, pp. 1-11, 2011.
H. Cheong, L. H. Shu, R. Stone and K. L. Wood, “Translating Terms of the Functional Basis into Biologically Meaningful Keywords,” in ASME 2008 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Brooklyn, New York, USA, 2008, pp. 138-148.
L.H. Shu, “Generalizing the Biomimetic Design Process,” in Proceedings of the Canadian Design Engineering Network Conference, Canada, 2011, pp.1-6.
K. Murray, “Classification of Biological Phenomena to Aid in Search and Retrieval for Biomimicry,” M.S. thesis, Department of Mechanical Engineering, Clemson University, South Carolina, USA, 2013.
H. Cheong, “Extraction and transfer of biological analogies for creative concept generation,” in ASME 2010 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Quebec, Canada, 2010, pp. 1–16.
H. Cheong and L. H. Shu, “Automatic Extraction of Causally Related Functions From Natural Language Text for Biomimetic Design,” in ASME 2012 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Illinois, USA, 2012, pp.1–10.
L. H. Shu, “A natural-language approach to biomimetic design,” Artificial Intelligence for Engineering Design, Analysis and Manufacturing, vol. 24, no. 4, pp 507–519, 2010.
H. Cheong, and L. Shu, “Supporting Creative Concept Generation by Engineering Students with Biomimetic Design,” in Proceedings of the Canadian Engineering Education Association, Ontario, Canada, 2010, pp. 1-6.
W.K. Purves, D. Sadava, G. H. Orians, and H. C. Heller, Life: The Science of Biology, 10th Edition. Texas: W. H. Freeman, 2001.
J. Reap, D. Baumeister and B. Bras, “Holism, Biomimicry, and Sustainable Engineering,” in ASME 2005 International Mechanical Engineering Congress and Exposition, Orlando, USA, 2005, pp. 423-431.
A. D. Rosemond and C. B. Anderson, “Engineering Role Models: Do Non-Human Species have the Answers?,” Ecological Engineering, vol. 20, no. 5, pp. 379-387, 2003.
J. Todd. (2004). Restorer Eco-Machines for the Culture of Aquatic Animals and the Restoration of Polluted Aquatic Environments [Online].
S. A. Wainwright, W. D. Biggs, J. D. Currey and J. M. Gosline, Mechanical Design in Organisms. New York: Wiley, 1976.
B. H. Eilouti, “Environmental Knowledge as Design Development Agent,” Journal of Systemic, Cybernetics & Informatics, vol. 10, no. 3, pp. 111-121, 2012.
© Journal of Advanced Manufacturing Technology