El diseño arquitectónico bioinspirado: un lenguaje holístico con respuestas sostenibles y resilientes
Keywords:
Biomimetic, design
Abstract
Bio-inspired architecture, supported by Artificial Intelligence (AI), generates designs that integrate with the natural and built environment, considering human needs, cultural values and sustainable development goals.
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Villaga Calce S.P.A. (2009). Process for production of natural hydraulic lime. Recuperado de https://patents.google.com/patent/WO2009098727A2/en.
Wright, G. R. H. (2009). Ancient building technology, vol. 3. Leiden: Koninklijke Brill NV.
Yuan, P. F. (2023). Toward a generative AI-augmented design era. ARIN, 2(16). https://doi.org/10.1007/s44223-023-00038-9.
Berto, R. (2005). Exposure to restorative environments helps restore attentional capacity. Journal of Environmental Psychology, 25, pp. 249-259.
Chawla, L., Keena, K., Pevec, I., & Stanley, E. (2014). Green schoolyards as havens from stress and resources for resilience in childhood and adolescence. Health & Place, 28, pp. 1-13. doi: 10.1016/j.healthplace.2014.03.001.
Chayaamor-Heil, N. (2023). From Bioinspiration to Biomimicry in Architecture: Opportunities and Challenges. Encyclopedia, 3(1), pp. 202-223.
Cillis, G. (2020). Pietragalla: rural heritage between architecture and archaeology. Medium. Recuperado de https://giucillis.medium.com/pietragalla-rural-heritage-between-architecture-and-archaeology-86ab04486654.
Darwin, C. (1859). El origen de las especies. Londres: John Murray.
DesignBuilder Software Ltd. (2023). DesignBuilder SBEM and DSM Approved Versions. DesignBuilder. Recuperado de https://designbuilder.co.uk/software/designbuilder-sbemand-dsm-approved-versions/.
European Committee for Standardization (CEN/TC 156) - Ventilation for buildings. (2019). Energy performance of buildings - Ventilation for buildings - Part 1: Indoor environmental input parameters for design and assessment of energy performance of buildings addressing indoor air quality, thermal environment, lighting and acoustics (EN 16798-1:2019).
Faber Taylor, A., Kuo, F., & Sullivan, W. (2002). Views of nature and self-discipline: evidence from inner city children. Journal of Environmental Psychology, 22/1–2, pp. 49–63. Elsevier BV. doi: 10.1006/jevp.2001.0241.
Godbay, G. (2009). Outdoor recreation, health, and wellness: Understanding and enhancing the relationship. Resources for the Future. Recuperado de https://media.rff.org/documents/ RFF-DP-09-21.pdf.
Ilieva, L., Ursano, I., Traista, L., Hoffmann, B., & Dahy, H. (2022). Biomimicry as a Sustainable Design Methodology—Introducing the ‘Biomimicry for Sustainability’ Framework. Biomimetics, 7(2), p. 37.
Kottek, M., Grieser, J., Beck, C., Rudolf, B., & Rubel, F. (2006). World map of the KöppenGeiger climate classification updated. Meteorol. Zeitschrift, 15, pp. 259-263. https://doi.org/10.1127/0941-2948/2006/0130.
Krichmar, J. L., Severa, W., Khan, M. S., & Olds, J. L. (2019). Making BREAD: Biomimetic Strategies for Artificial Intelligence Now and in the Future. Frontiers in Neuroscience. Recuperado de https://www.frontiersin.org/articles/10.3389/fnins.2019.00666/full.
Lobo, L. A. C., & Rieth, C. E. (2021). Saúde mental e Covid-19: uma revisão integrativa da literatura. Estudos de Psicologia, 38, e210011. https://doi.org/10.1590/1982-0275202138e210011.
Nedovic, S., & Morrissey, A. (2013). Calm Active and Focused: Children’s Responses to an Organic Outdoor Learning Environment. Learning Environments Research, 16 (2), 2, pp. 81-95.
Palumbo, J. (2022). ¿Vivirías en una cueva? Estos arquitectos creen que deberíamos. Recuperado de https://www.cnn.com/style/article/architects-sustainable-cave-living. Portalatin-Mendez, E., & Doe, J. (2019). Deep Learning with Biomimicry. Journal of Design and Science. Recuperado de https://jods.mitpress.mit.edu/pub/d8an1bja.
Schmidt, J. H. (1934). L’expédition de Ctésiphon en 1931-1932. Syria. Archéologie, Art et histoire, 15(1), pp. 1-23.
SimScale. (2023). What is PMV & PPD? SimScale Blog. Recuperado de https://www.simscale.com/blog/what-is-pmv-ppd/
Smith, M. W. (2001). Analysis of the thermal performance of Tierra I—a low-energy high-mass residence. National Renewable Energy Laboratory.
The Constructor. (2021). 23 Types of Concrete Used in Construction and their Applications. Recuperado de https://theconstructor.org/concrete/types-concrete-applications/19779/.
Ulrich, R. S. (1984). View through a window may influence recovery from surgery. Science, 224 (4647), pp. 420-421. doi: 10.1126/science.6143402.
Verderber, S. (1986). Dimensions Of person-window Transactions in the hospital environment. Environment and Behavior, 18 (4), pp. 450-466.
Verderber, S., & Reuman, D. (1987). Windows, views, and health status in hospital therapeutic environments. Journal of Architectural and Planning Research, pp. 120-133.
Villaga Calce S.P.A. (2009). Process for production of natural hydraulic lime. Recuperado de https://patents.google.com/patent/WO2009098727A2/en.
Wright, G. R. H. (2009). Ancient building technology, vol. 3. Leiden: Koninklijke Brill NV.
Yuan, P. F. (2023). Toward a generative AI-augmented design era. ARIN, 2(16). https://doi.org/10.1007/s44223-023-00038-9.
Published
2024-04-24
How to Cite
Costa Couceiro, M., Vieira de Oliveira, C., & Ribeiro Manaia, M. (2024). El diseño arquitectónico bioinspirado: un lenguaje holístico con respuestas sostenibles y resilientes. Cuadernos Del Centro De Estudios De Diseño Y Comunicación, (220). https://doi.org/10.18682/cdc.vi220.11150
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