id |
caadria2013_207 |
authors |
Narahara, Taro |
year |
2013 |
title |
Adaptive Growth Using Robotic Fabrication |
doi |
https://doi.org/10.52842/conf.caadria.2013.065
|
source |
Open Systems: Proceedings of the 18th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2013) / Singapore 15-18 May 2013, pp. 65-74 |
summary |
This paper studies computational methods for adaptive growth seen in human design processes, such as development of spontaneous settlements, by highlighting the contrast with conventional plan execution approaches. The paper speculates as to the possibilities of open frameworks for design using computational methods through a relatively simple yet explicit example in the context of robotic fabrication. The proposed experiment uses an industrial robot arm to pro-duce structures by stacking unit bricks without hard-coded instructions (“blueprints”) from the outset. The paper further speculates about how such implementations can be applied to architectural design. |
wos |
WOS:000351496100007 |
keywords |
Generative design, Robotic fabrication, Adaptable design |
series |
CAADRIA |
email |
|
full text |
file.pdf (3,221,377 bytes) |
references |
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Alexander, C. (1965)
A city is not a tree, I, II
, Architectural Forum, 122(1), 58–62, 122(2), 58–62
|
|
|
|
Brand, S. (1994)
How Buildings Learn: What Happens After They’re Built
, Viking, New York
|
|
|
|
Camazine, S., Deneubourg, J.-L., Franks, N. R., Sneyd, J., Theraulaz, G. and Bonabeau,. E (2002)
Self-organization in Biological Systems
, Princeton University, Princeton, NJ
|
|
|
|
Gramazio, F. and Kohler, M. (2011)
Architecture and digital fabrication
, Jahrbuch / Yearbook 2011, Department of Architecture, ETH Zurich, 174–177
|
|
|
|
Grasse, P. (1959)
La reconstruction du nid et les coordinations inter-individuelles chez bellicostitermes natalensis et cubitermes . sp. la theorie de la stigmergie: essai d’interpretation du comportement des termites constructeurs
, Insectes Soc., 61, 41–81
|
|
|
|
Narahara, T. (2010)
Designing for Constant Change: An Adaptable Growth Model for Architecture
, International Journal of Architectural Computing, 8(1), 30–40
|
|
|
|
Narahara, T. (2013)
The Computer as a Tool for Creative Adaptation: Biologically Inspired Simulation for Architecture and Urban Design, in J. Zander and P. Mosterman (ed.)
, Computation for Humanity—Information Technology to Advance Society, 1st ed., CRC, Boca Raton, FL
|
|
|
|
Parish, Y. I. H., and Muller, P. (2001)
Procedural modeling of cities, in E. Fiume (ed.)
, Proceedings of ACM SIGGRAPH 2001, ACM, 301–308
|
|
|
|
Theraulaz, G. and Bonabeau, E. (1995)
Modeling the collective building of complex architectures in social insects with lattice swarms
, Journal of Theoretical Biology, 177, 381–400
|
|
|
|
Zykov, V., Mytilinaios, E., Adams, B. and Lipson, H. (2005)
Robotics: self-reproducing machines
, Nature, 435(7039), 163–164
|
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last changed |
2022/06/07 07:58 |
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