Cellular automata: Towards possible applications in urban design education and practice | Autômatos celulares: visando possíveis aplicações no ensino e na prática do urbanismo
DOI:
https://doi.org/10.24220/2318-0919v16n2a4211Palavras-chave:
Cellular Automata (CA). Complexity. Design Process. Urban Design.Resumo
This article investigates how Cellular Automata have been applied to the design process in the fields of architectural and urban design. It begins by systematically mapping published applications of Cellular Automata in the design process in order to outline the state of the art. The methods employed in the reviewed papers are analyzed and contrasted in order to develop a conceptual framework to guide future applications of Cellular Automata as a tool in the urban design process in academic environments, aiming at future applications in actual practice.
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Referências
ALEXANDER, C. et al. A pattern language. New York: Oxford University Press, 1977.
ANZALONE, P.; CLARKE, C. Architectural applications of complex adaptive systems. In: ASSOCIATION
FOR COMPUTER AIDED DESIGN IN ARCHITECTURE CONFERENCE, 22.,2003, Indianapolis. Proceedings […]. Indianapolis: ACADIA, 2003. p.325‑335.
ARAGHI, S.K.; STOUFFS, R. Exploring cellular automata for high density residential building
form generation. Automation in Construction, v.49, part A, p.152‑162, 2015.
ARAUJO, A.L.; CELANI, G. Exploring weaire‑phelan through Cellular Automata: A proposal for
a structural variance‑producing engine. Proceedings Blucher Design, v.3, n.1, p.710‑714, 2016.
BATTY, M. Cities and complexity: Understanding cities with cellular automata, agent‑based
models, and fractals. Cambridge: The MIT press, 2007.
BATTY, M.; COUCLELIS, H.; EICHEN, M. Editorial: Urban systems as cellular automata. Environment and Planning B: Planning and Design, v.24, n.2, p.159‑164, 1997.
BERGER, M. et al. CAD integrated workflow with urban simulation‑design loop process. In: INTERNATIONAL
CONFERENCE ON URBAN REGENERATION AND SUSTAINABILITY: SUSTAINANBLE CITY, 10., 2015, Medellin. Proceedings […]. Medellin: WIT Transactions on
Ecology and The Environment, v.194, 2015. p.11‑22.
CANEPARO, L. Generative platform for urban and regional design. Automation in Construction, v.16, n.1, p.70‑77, 2007.
CANEPARO, L. et al. Generating urban morphologies from ontologies. In: WORKSHOP COST ACTION C21 CONFERENCE: TOWNTOLOGY, 2., 2007, Castello del Valentino, Turin. Proceedings […]. Turin: European Cooperation in Science and Technology, 2007. p.171‑184.
COATES, P. et al. The use of Cellular Automata to explore bottom up architectonic rules. In: EUROGRAPHICS UK CHAPTER, 14., 1996, London. Proceedings […]. London: Eurographics Association UK, 1996. p.26‑28.
COUCLELIS, H. Cellular worlds: A framework for modelling micro‑macro dynamics. Environment and Planning A, v.17, n.5, p.585‑596, 1985.
CRUZ, C.; KIRLEY, M.; KARAKIEWICZ, J. Generation and exploration of architectural form using a composite Cellular Automata. In: AUSTRALASIAN CONFERENCE ON ARTIFICIAL LIFE AND COMPUTATIONAL INTELLIGENCE, 2017, Melbourne. Proceedings [...]. Cham: Springer, 2017. p.99‑110.
DEVETAKOVIC, M. et al. Les folies cellulaires an exploration in architectural design using cellular
automata. In: GENERATIVE ART CONFERENCE, 12., 2009, Milan. Proceedings […]. Milan: Generative Art, 2009. p.181‑192.
DINÇER, A.E.; CAGDAS, G.; TONG, H. A Computational model for mass housing design as a decision‑support tool. Procedia Environmental Sciences, v.22, p.270‑279, 2014.
FINUCANE, E.; DERIX, C.; COATES, P. Evolving urban structures using computer optimization techniques. In: GENERATIVE ART CONFERENCE, 9., 2006, Milan. Proceedings […]. Milan: Generative Art, 2006. p.1‑26.
FISCHER, T.; BURRY, M.; FRAZER, J. How to plant a subway system. In: INTERNATIONAL CONFERENCE ON COMPUTER AIDED ARCHITECTURAL DESIGN FUTURES,
, 2003, Dordrecht. Proceedings […]. Dordrecht: Kluwer Academic Publishers, 2003. p.403‑412.
FISCHER, T.; HERR, C.M. The designer as toolbreaker? Probing tool use in applied generative design. In: ASSOCIATION FOR COMPUTER‑AIDED ARCHITECTURAL DESIGN RESEARCH IN ASIA: DIGITALIZATION AND GLOBALIZATION, 12., 2007, Nanjing. Proceedings […]. Nanjing: Southeast University Press, 2007. p.367‑375.
FRAZER, J. Creative design and the generative evolutionary paradigm. In: BENTLEY, P.J.; CORNE, D.W. (Ed.). The Morgan Kaufmann series in artificial intelligence. San Francisco: Morgan Kaufmann, 2002. p.253‑274.
GUNDER, M. Commentary: Is urban design still urban planning? An exploration and response. Journal of Planning Education and Research, v.31, n.2, p.184‑195, 2011.
HEALEY, P. Urban complexity and spatial strategies: Towards a relational planning for our times. Londres: Routledge, 2007.
HERR, C.M. Second‑order cellular automata to support designing. Kybernetes, v.44, n.8/9, p.1251‑1261, 2015.
HERR, C.M.; FISCHER, T. Systems for showing and repurposing: A second‑order cybernetic reflection on some cellular automata projects. Journal of Mathematics and System Science, v.3, n.4, p.201‑216, 2013.
HERR, C.M.; FORD, R. Cellular automata in architectural design: From generic systems to specific design tools. Automation in Construction, v.72, part 1, p.39‑45, 2016.
HERR, C.M.; KARAKIEWICZ, J. Algogram: Automated diagrams for an architectural design studio. In: INTERNATIONAL CONFERENCE ON COMPUTER AIDED ARCHITECTURAL DESIGN FUTURES, 12., 2007, Sydney. Proceedings […]. Dordrecht: Springer, 2007. p.167‑180.
HERR, C.M.; KVAN, T. Using cellular automata to generate high‑density building form. In: INTERNATIONAL
CONFERENCE ON COMPUTER AIDED ARCHITECTURAL DESIGN FUTURES, 11., 2005, Vienna. Proceedings […]. Dordrecht: Springer, 2005. p.249‑258.
HERR, C.M.; KVAN, T. Adapting cellular automata to support the architectural design process. Automation in Construction, v.16, n.1, p.61‑69, 2007.
HILLIER, B. et al. Space syntax. Environment and Planning B: Planning and Design, v.3, n.2, p.147‑185, 1976.
HOLLAND, J.H. Complexity: A very short introduction. London: Oxford, 2014.
HUA, H. Planning meets self‑organization: Integrating interactive evolutionary computation with cellular automata for urban planning. Frontiers of Architectural Research, v.1, n.4, p.400‑404, 2012.
JACOBS, J. The death and life of great American cities. New York: Vintage Books, 1961.
JENSEN, M.B.; FOGED, I.W. Cellular Automata as a learning process in Architecture and Urban design. In: EDUCATION AND RESEARCH IN COMPUTER AIDED ARCHITECTURAL DESIGN IN EUROPE, 32., 2014, Newcastle. Proceedings […]. Newcastle: eCAADe, 2014. p.297‑302.
JOHNSON, S. Emergência: a dinâmica de rede em formigas, cérebros, cidades e softwares. Rio de
Janeiro: Jorge Zahar, 2003.
KASPRISIN, R. Urban design: The composition of complexity. London: Taylor and Francis, 2011.
KOENIG, R. Generating urban structures: A method for urban planning supported by multi‑agent systems and cellular automata. Przestrze i Forma, v.16, p.353‑376, 2011.
KOENIG, R.; BAURIEDEL, C. Generating settlement structures: A method for urban planning
and analysis supported by cellular automata. Environment and Planning B: Planning and Design, v.36, n.4, p.602‑624, 2009.
KRAWCZYK, R.J. Architectural interpretation of cellular automata. In: GENERATIVE ART CONFERENCE, 5., 2002, Milan. Proceedings […]. Milan: Generative Art, 2002. p.7.1‑7.8.
LEE, Y.; KIM, S.H. Algorithmic design paradigm utilizing cellular automata for the han‑ok. Nexus
Network Journal, v.18, n.2, p.481‑503, 2016.
MITCHELL, W.J. The theoretical foundation of computer‑aided architectural design. Environment
and Planning B: Planning and Design, v.2, n.2, p.127‑150, 1975.
NORTE PINTO, N.; PAIS ANTUNES, A. Cellular automata and urban studies: A literature survey. Architecture, City and Environment, v.1, n.3, p.368‑399, 2007.
O’SULLIVAN, D.; TORRENS, P.M. Cellular models of urban systems. In: Bandini, S.; Worsch, T.(Org.). Theoretical and practical issues on cellular automata. London: Springer‑Verlag, 2000. p.108‑116.
O’SULLIVAN, D.; TORRENS, P.M. Cellular automata and urban simulation: Where do we go from here? Environment and Planning B: Planning and Design, v.28, n.2, p.163‑168, 2001.
PATT, T. Generative masterplanning inspired by cellular automata with context‑specific tessellations. In: EDUCATION AND RESEARCH IN COMPUTER AIDED ARCHITECTURAL DESIGN IN EUROPE, 33., 2015, Liverpool. Proceedings […]. Liverpool: eCAADe, 2015. v.2, p.461‑466.
SANTÉ, I. et al. Cellular automata models for the simulation of real‑world urban processes: A review and analysis. Landscape and Urban Planning, v.96, n.2, p.108‑122, 2010.
SHIFFMAN, D. The nature of code: Simulating natural systems with processing. [S.l.:S.n.], 2012. Available from: <http://natureofcode.com/book/>. Cited: Dec. 19, 2017.
SINGH, V.; GU, N. Towards an integrated generative design framework. Design Studies, v.33, n.2, p.185‑207, 2012.
SPELLER, T.H.; WHITNEY, D.; CRAWLEY, E. Using shape grammar to derive cellular automata rule patterns. Complex Systems, v.17, n.1/2, p.79‑102, 2007.
TOBLER, W.R. A computer movie simulating urban growth in the Detroit region. Economic Geography, v.46, p.234‑240, 1970.
ULAM, S.M. Some ideas and prospects in biomathematics. Annual Review of Biophysics and Bioengineering, v.1, p.277‑292, 1972.
VAN DER ZEE, A.; DE VRIES, B. Design by computation. In: GENERATIVE ART CONFERENCE, 11., 2008, Milan. Proceedings […]. Milan: Generative Art, 2008. p.35‑37.
VITINS B. J.; AXHAUSEN K.W. Shape grammars overview and assessment for transport and urban design: Review, terminology, assessment, and application. Journal of Transport and Land Use, v.9, n.1, p.65‑96, 2016.
VON NEUMANN, J.A. Theory of self‑reproducing automata. Illinois: University of Illinois Press, 1966.
WATANABE, M.S. Induction design: A method for evolutionary design. Basel: Birkhauser, 2002.
WHITE, R.; ENGELEN, G. Cellular automata and fractal urban form: A cellular modelling approach to the evolution of urban land‑use patterns. Environment and Planning A, v.25, n.8, p.1175‑1199, 1993.
WOLFRAM, S. Cellular automata. Los Alamos Science, v.9, p.2‑21, 1983.