Computational approach and morphogenesis

Year 2019, Volume: 1 Issue: 1, 22 - 28, 31.07.2019

Aseel Abdullah

Abstract

This article is discussing nature role in
architecture through morphogenesis using computational approach, it’s locating biology,
nature, chemistry, geology, crystallography, and
material structures in an objective framework in the form-finding and concept
generation process. on the one hand, it’s presenting a deeper, dynamic
inspiration source through the integration between architecture and biology.
The micro scale of biology systems, in many cases play a macro significance in
providing a proper functional and aesthetic solutions, by taking a closer
look on material’s formation of structure, tissues, or the differentiation and
growth of the organs during developments.

 

Although, the article is clarifying and
defining related terms of computation process in architecture, by presenting a
general view over the benefits architects have received adopting the
computational approach and digital tools in
both the early stage of design process or in production phase. The article is representing
a bridging between the computation of human brain, biological parameters and
digital tools.

 

In addition, it will be presenting the masters
adopted the morphogenesis approach in architecture around the world through the
past decades and their attempts in the architectural field for improving early
design process, and the developments a design can reach across the integration
between pre-determined parameters and the primary expectations of human brain
and imagination.  

Keywords

computational approach, form finding, biology, concept generation, morphogenesis, digital tools

References

• Ahmed, M. M. (2015). Bio-Digital Morphogenesis In Architecture. Alexandria: University of Alexandria.
• Capcarrère M.S., Freitas A.A., Bentley P.J., Johnson C.G., Timmis J. (eds) Advances in Artificial Life. ECAL (2005). Lecture Notes in Computer Science, vol 3630. Springer, Berlin, Heidelberg
• Cheong, H., Hallihan, G., & Shu, L. (2014). Design problem solving with biological analogies: A verbal protocol study. Artificial Intelligence for Engineering Design, Analysis and Manufacturing.
• El-khaldi, M. (2007). Mapping boundries of generative systems for design synthesis. Unpublished Master of Science Thesis . Cambridge, Massachusetts, USA: MIT.
• Granger, R. (2006). Engines of the brain: The computational instruction set of human cognition. Bra in Eng ineer ing Lab orator y.
• İcmeli, B. M. (n.d.). Digital morphogenesis in architectural design . academia.
• Kolarevic, B. (2000). Digital Morphogenesis and Computational Architectures, Constructing the digital space, pp 1-6,
• Kotnik, T., (2010), Digital Architectural Design as Exploration of Computable Functions, International Journal of Architectural Computing, V8, N1, pp. 1-16
• Leach, N., (2009). Digital Morphogenesis . Dessau Institute of Architecture ., Architectural Design, pp 33-37,
• McMillan, L., Wagner, S., Mayfield, M., & Fierro, B. K. (1995, May 15). Dictionary.com. Retrieved May 23, 2018, from http://www.dictionary.com
• Nagel , J. K., & Stone , R. B. (2012). A comutational Approach to biological inspired design . Artifical Intelligence for engineering Design. 26, pp 161­176
• Needham, J., (1952) Biochemistry and Morphogenesis, The University Press Österlund, T. (2010). Methods For Morphogenesis And Methods For Ecological In Architecture,. University Of Oulu, Department Of Architecture.
• Oxman, R. (2013). Naturalizing Architecture. Archilab. Roudavski, S. (2009). Toward Morphogenesis in Architecture . International Journal of Architectural Computing, V.7 N.3, pp. 345-374, University of Melbourne.
• Rudge T., Haseloff J., (2005), A Computational Model of Cellular Morphogenesis in Plants. In: (Eds. R. Goebel, J. Siekmann and W.Wahlster). in: Advances in Artificial Life, Lecture Notes in Artificial Intelligence,Vol. 3630, Springer, Heidelberg, 2005, 78- 87.
• Yusuf, H. O. (2012). The Impact Of Digital-Computational Design On The architectural design process . University of Salford.