Mechanisms of designs inspired by nature and ways to develop them
DOI:
https://doi.org/10.35560/jcofarts105/185-210Keywords:
biomimetics, biological system, Leonardo da Vinci. Invention (Velcro) ConclusionsAbstract
Research in the field of biometric simulation is in the design of various and various industrial products, but it still needs new studies and research that are compatible with scientific and technological development, especially in the field of computing. Recognition, deduction, and simulation of nature, for example, the use of animal bones as tools in cutting, hunting or fighting, in addition to the use of animal drawings in cave drawings as symbols of strength, as well as dance movements and face painting to simulate the natural reality that surrounds humans. This trend developed to include simulation of nature in the formal and functional aspect to reach To vocabulary and solutions that help man in his daily life, the research problem is summarized in answering some questions, including what are the methods and methods that are used in bio-simulation and how to compare them, and is it possible to reach a new mechanism, but the objectives of the research were to reveal and compare the methodologies that address Biomimetics and the possibility of reaching a new mechanism in biomimetics. As for the research results, they were summarized as follows:
1- There are a number of methodological approaches that describe the way in which biomimetics are solved.
2- These methods only provide the way to achieve biomimetics, and their application is subject to the designer's direction and thinking.
3- It is important to study the dynamic form in detail in order to get the basic idea of the design.
References
LEONARDO DA VINCI. (2019). Retrieved from Flying Machine : https://www.leonardo-da-vinci.net/flying-machine/
A Dr Prem Guides and Magazines. (n.d.). Retrieved from https://hometone.com/ross-lovegroves-biophilia-outdoor-furniture-is-very-organic-indeed.html
Alexandridis, G. (2016). Sustainable Product Design Inspired from Nature. Greece: SCHOOL OF ECONOMICS, BUSINESS ADMINISTRATION.
ALQAISI, A. K. (2015). The importance of social acceptability of the universal design. Al-Academy. Journal of the College of fine arts, university of Baghdad-, 55.
ALQAISI, A. K. (2019). Applications of Interior Space Design According to Shape Generation Systems. Al-Academy.Journal of the College of fine arts, university of Baghdad, 5-6.
Benyus, J. (1997). Biomimicry - Inovation Inspired by Nature. New York: Harper Perennial.
Benyus., J. (2002). Biomimicry: Innovation Inspired by. New York: William Morrow .
Braungart., M. W. (2002). Cover of Cradle to Cradle: Remaking the Way We Make Things. United States: : North Point Press .
Coelho, D. V. (2010). An approach to validation of technological industrial design concepts with a bionic character. the International Conference on Design and Product Development, (pp. 40-45.). Athens, Greece,.
Colombo, B. (2007). Biologically Inspired Design:. (Eds) Cumulus Working Papers, 29-36.
Concept Trucks by Luigi Colani. (n.d.). Retrieved from BubbleMania: https://www.topspeed.com/cars/car-news/concept-trucks-by-luigi-colani-ar18429/pictures.html
Ekdahl, K. (2017, 10 4). Creativity boost. Retrieved from George de Mestral and Velcro: https://creativityboost.net/2017/10/04/george-de-mestral-and-velcro/
Helms, M. V. (2009). Biologically inspired design: process and products . Design Studies, Vol. 30, , 606-622.
Hussain, M. A. (2002). Applying the matter field model to solving industrial product design problems. Al-Academy. Journal of the College of fine arts, university of Baghdad-101, 30-33.
Hussain, M. A. (2011). Employing the Arabic letter in industrial products using the 3dsmax program. Al-Academy. Journal of the College of fine arts, university of Baghdad- 57, 60-61.
Institute, B. (2009, December 29th). Biomimicry Institute. Retrieved from http://www.biomimicryinstitute.org/about-us/board.html
Junior, W. (2002). Proposta de uma Metodologia para o Desenvolvimento de Produtos Baseados no Estudo da Biónica. P&D - Pesquisa eDesign.
Kindersley, D. (1995). Máquinas Voadoras. Lisboa: Editorial Verbo.
Lage, A. &. (2003). Desígnio - Teoria do design. parte 2, Porto: Porto Editora.
Lloyd, E. (2010, January 10th). The History of Bionics. Retrieved from http://www.brighthub.com/science/medical/articles/9070.aspx
Lovegrove, R. (2004). Supernatural : the work of Ross Lovegrove. New York: Phaidon.
MISSION, R. O. ( 2007). Biomimetics: strategies for product design inspired by nature. Global Watch Missions.
others, J. a. (2002). Proposta de uma Metodologia para o Desenvolvimento de Produtos Baseados no Estudo da Biónica . P&D - Pesquisa e.
others, R. P. (2018). Product Development Using Bio-mimicry Design Spiral. E3S W eb of C onferences 73, 0 (p. 4). https://doi.o rg/10.1051/e3sconf/2018730.
Pernodet, P. &. (2000). Luigi Colani – Biography. Paris: Dis Voir.
Poole., A. J. (2004). Innovation in Architecture: A Path to the Future 1st Edition. New York : Spon press .
prehistoric art. (2019, 11 12). Retrieved from https://www.asargy.com/2019/12/blog-post_34.html
Russ, b. E. (2016, 10 7). Retrieved from Modern Chairs : https://www.lushome.com/modern-chairs-ross-lovegrove-modern-furniture-blending-organic-design-art/102884
wikipedia. (n.d.). Retrieved from Stuttgart Airport Terminal: https://en.m.wikipedia.org/wiki/File:Stuttgart_Airport_Terminal_1.jpg
Downloads
Published
Issue
Section
License
Copyright (c) 2022 Mohammed Ali Hussein alqaisi
This work is licensed under a Creative Commons Attribution 4.0 International License.
