O paradoxo da galeria progressiva
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ROLIM, A. L.; AMORIM, L. . O paradoxo da galeria progressiva: neurociência e morfologia aplicadas na análise do comportamento espacial em uma tipologia de galeria de arte. Revista de Morfologia Urbana, [S. l.], v. 10, n. 2, 2022. DOI: 10.47235/rmu.v10i2.264. Disponível em: http://revistademorfologiaurbana.org./index.php/rmu/article/view/264. Acesso em: 25 nov. 2024.

Resumo

Focando no comportamento espacial de visitantes, investiga-se uma tipologia de espaço expositivo com arranjo sequencial de ambientes, denominada “galeria progressiva” (GP). Resultado de uma tese de doutoramento, propõe-se a interface entre neurociência e sintaxe espacial. Avalia-se o impacto de GPs na função atencional pela aferição da resposta de foco em visitantes em galerias virtuais. As hipóteses iniciais sobre GPs foram: campos visuais são altamente inteligíveis; leiautes deterministas levam à visitação com maior foco e o espaço impacta decisivamente na visita, sobretudo quando rotas são limitadas. São analisados leiautes hipotéticos simples, exemplares históricos e duas GPs modernas, o Solomon R. Guggenheim Museum e o Museu do Crescimento Ilimitado. Posteriormente, procede a análise de variações complexas e, finalmente, a avaliação de percursos de visitantes e captura de foco durante navegação virtual em galerias, cerne deste artigo. O “Grau de Progressividade” e o “Índice de Variação de Picos de Foco” são introduzidos, levando à relação de proximidade entre geometria espacial e respostas neurais, que pode fornecer valiosos dados para projetos curatoriais e arquitetônicos. Resultados revelaram que a coexistência de inteligibilidade, boa intervisibilidade e geometria definidora de rotas, diferente da hipótese, não levou a respostas com maior foco, apontando para o paradoxo em questão.

https://doi.org/10.47235/rmu.v10i2.264
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Referências

Albright, T. D. (2015) “Neuroscience for architecture”, em ROBINSON, S. e PALLASMAA, J. (eds.) Mind in Architecture: neuroscience, embodiment, and the future of design. (The MIT Press, Cambridge, Massachussetts) 197-217.

Ashwal, S. (2018) “Disorders of Consciousness in Children”, em SWAIMAN, K. et al. (eds.) Pediatric Neurology (Elsevier, Amsterdam) 767-780.

AUTODESK, Inc. (NASDAQ: ADSK) (2017) “Revit: software built for Building Information Modeling (BIM)”. Versão educacional 2017. [S. l.] [2017?]. Disponível em: https://www.autodesk.com/education/free-software/revit. (Acesso em: 10 Fevereiro 2020).

Amorim, L. (1999) The Sector’s Paradigm: a study of the spatial and functional nature of modernist housing in Northeast Brazil. Ph.D. Thesis. University College London. Disponível em: https://discovery.ucl.ac.uk/id/eprint/1318054 (Acesso: 21 Outubro 2022).

Benedikt, M. L. (1979) “To take hold of space: isovist and isovist fields”, Environment Planning B: Planning and Design 6, 47-65.

Bennett, T. (1995) The birth of the museum: history, theory, politics (Routledge, New York).

Choi, Y. K. (1997) “The morphology of exploration and encounter in museum layouts”, Proceedings of the Space Syntax First International Symposium (UCL, London) 1, 16.1 -16.10.

Conroy, R. (2001) Spatial Navigation in immersive virtual environments. Ph.D Thesis. University College London. Disponível em: https://discovery.ucl.ac.uk/id/eprint/1111 (Acesso: 21 Outubro 2022).

Conroy-Dalton, R. et al. (2015) “Navigating complex buildings: cognition, neuroscience and architectural design”, em GERO, John S. (ed.) Studying Visual and Spatial Reasoning for Design Creativity. (Springer, Netherlands) 7-12.

EMOTIV (2015) “Emotiv BCI: software for brain computer interface.” Versão 2019 [S. l.] [2015?]. Disponível em: https://www.emotiv.com/product/emotiv-bci/. (Acesso em: 10 Fevereiro 2020).

EPIC GAMES, Inc. (2019) “Unreal Engine: real-time 3D creation platform”. Versão 2019 [S. l.] [2019?]. Disponível em: https://www.unrealengine.com/en-US/get-now. (Acesso em: 10 Fevereiro 2020).

Gazzaniga, M., Ivry, R. e Mangun, G. (2014) Cognitive NeuroScience: the biology of the mind (Norton & Company: New York).

Hillier, B. (2003) “The architectures of seeing and going: or, are cities shaped by bodies or minds? and is there a syntax of spatial cognition?”, Proceedings of the Fourth International Space Syntax Symposium (UCL, London) 06.1-06.34.

Hillier, B. et al. (1976) “Space syntax”, Environment Planning B: Planning and Design 3, 147-18.

Hillier, B. e Hanson, J. The social logic of space (Cambridge University Press: Cambridge)

Hillier, B. e Tzortzi, K. (2011) “Space Syntax: The Language of Museum Space”, em MACDONALD, S. (ed.) A Companion to Museum Studies (Wiley-Blackwell, Oxford) 282-301.

Li, W., Mai, X. e Liu, C. (2014) “The default mode network and social understanding of others: what do brain connectivity studies tell us”. Frontiers in Human Neuroscience 8(74), 1-15.

Mallgrave, H. (2013) Architecture and Embodiment: The Implications of the New Sciences and Humanities for Design (Routledge, New York).

Melton, A. (1935) Problems of installation in museums of art (Publications of the American Association of Museums: Washington D.C).

Menon, V. et al. (2015) “Salience Network”, em TOGA, A. (ed.) Brain Mapping: an Encyclopedic Reference (Elsevier) 2, 97-611. Disponível em: https://med.stanford.edu/content/dam/sm/scsnl/documents/Menon_Salience_Network_15.pdf. (Acesso 14 Setembro 2019)

Peponis, J. e Hedin, J. (1982) “The layout of theories in the Natural History Museum”, 9H 3, 21-25.

Peponis, J. (1993) “Evaluation and Formulation in Design – the implications of morphological theories of function”, Nordisk Arkitekturforskinning - Nordic Journal of Architectural Research 2, 53-62.

Peponis, J. et al. (2003) “Path, theme and narrative in open plan exhibition settings”, Proceedings of the Fourth International Space Syntax Symposium (UCL, London) 29.1-29.20.

Psarra, S. e Grajewski, T. (2000) “Architecture, narrative and promenade in Benson and Forsyth’s Museum of Scotland”, Architecture Research Quaterly, 4(2), 122-36.

Psarra, S. (2005) “Spatial culture, wayfinding and the educational message: the impact of layout on the spatial, social and educational experiences of visitors to museums and galleries” em MACLEOD, S. (ed.) Reshaping Museum Space: Architecture, Design, Exhibitions (Routledge: London) 78-94.

Psarra, S. (2016) The Venice variations: Tracing the architectural imagination. (UCL Press, London).

Radek, P. (2011) “The Frontoparietal Attention Network of the Human Brain”, The Neuroscientist 18(5), 502-515.

Rolim, A. L., Amorim, L. e Queiroz, M.C. (2017) “From Wright to Gwathmey Siegel: The case of movement in the Guggenheim Museum”, Proceedings of the 11th International Space Syntax Symposium (Instituto Superior Técnico, Lisboa) 19.1 -19.15.

Rolim, A. L., Amorim, L. e Flavigna, L. (2019) “From Progressive to Labyrinthine: Testing formal variations of an exhibition space typology”, Proceedings of the 12th International Space Syntax Symposium (Jiaotong University: Beijing) 291.1 -291.14.

Rolim, A. L., Amorim, L. e Jaborandy, M. L. (2022) “The galleria progressiva in the Solomon R. Guggenheim Museum and the Museum of Unlimited Growth”, em RUIVO, C. et.al (ed.) Formal Methods in Architecture and Urbanism (Cambridge Scholars Publishing: Newcastle upon Tyne) 2, 201-222.

Spreng. R. Nathan et al (2013) “Intrinsic architecture underlying the relations among the default, dorsal attention, and frontoparietal control networks of the human brain”, Journal of Cognitive Neuroscience 25(1), 74-86.

Stavroulaki, G. e Peponis. J. (2003) “The spatial construction of seeing at Castelvecchio”, Proceedings of the Fourth International Space Syntax Symposium (UCL, London) 66.1-66.14.

Sutton, T. (2000) The classification of visual art (Cambridge University Press: Cambridge).

Tröndle, M. (2014) “Space, movement and attention: affordances of the museum environment”, International Journal of Arts Management 17(1), 4-17.

Turner, A. (2003) “Analysing visual morphology of spatial morphology”. Environment and Planning B: Planning and Design 30(5), 657-676.

Turner, A e Penn, A. (2002) “Encoding natural movement as an agent-based system: an investigation into human pedestrian behaviour in the built environment”, Environment and Planning B: Planning and Design 29 (4), 473-490.

Turner, A. (ed.) (2007a) New Developments in Space Syntax Software (ITU Faculty of Architecture: Istanbul).

Turner, A. (2007b), “To move through space: lines of vision and movement” Proceedings of the 6th International Space Syntax Symposium (ITU Faculty of Architecture, Istanbul) 37.01-37.12.

Tzortzi, K. (2015) Museum space: where architecture meets museology (Routledge: London).

Vail, K. (Ed) (2009) The Museum of Non-Objective Painting: Hilla Rebay and the Origins of the Solomon R. Guggenheim Museum (Guggenheim Museum Publications: New York).

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Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

Copyright (c) 2022 Ana Luisa Rolim, Luiz Amorim

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