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Application on Evolutionary Computing of Building Performance in Architectural Design - Focusing on Thermal, Light and View of the Office Space -

환경성능의 진화연산을 적용한 건축계획방안에 관한 연구 - 업무시설의 열, 빛 및 시각 환경을 중심으로 -

  • Received : 2022.01.14
  • Accepted : 2022.03.17
  • Published : 2022.03.30

Abstract

Environmental factors such as light, heat, and vision are some examples of the most significant contexts affecting the overall architectural and urban environment. With the recent development in computation, environmental data, which can conveniently be converted into numerical values, has begun to gain attention in the field of architecture. The exclusive technology and specialized knowledge to utilize environmental data are distributed through open sources. As a result, the process of optimizing environmental data is evolving in various forms in academia and professional practices. This research examines the potential applications of methodologies utilizing quantifiable environmental data such as light, heat in architectural practices through multi-staged optimization processes and their uses as a crucial decision-making tool in the design processes. In this research, the quantitatively measurable environmental data such as light, heat, air, and viewing angles are examined in two or more stages of evaluation. The winning design proposal for the New Government Complex in Gangseo-gu (2021) was selected as a case study with a focus on optimizing the workspace, the most affected space by the environment. This research examines the applications of evolutionary computation to analyze building performances and their processes. The size and shape of the building considering the thermal performance and natural light; form, and density of external shading systems for radiant heat mitigation; and privacy control according to the composition and illuminance of the spaces facing the atrium are applied on the case building in professional architectural practice. This research expects to contribute to educators and practitioners in applications of environmental data at various scales in architecture and urban design.

Keywords

References

  1. Banke, T. (2013). Parametri i Praksis, Generativ Performance i Arkitektur. Ph..D. Dessertaion, Center for Information Technology and Architecture at The Royal Danish Academy of Fine Arts, School of Architecture, Design and Conservation
  2. Capeluto, I, & Shaviv. E. (1999). Modeling the design of Urban fabric with solar rights considerations, IBPSA 99 Proceeding Paper, 1341-1347
  3. Ferriss, H. (1922). Evolution of a City Building Under the Zoning Law. The New York Times Magazine, March 1922, 8-9
  4. Hwang, J. (2019). Architectural education in the digital era, Vmspace, Retrieved November 18. 2021 from https://www.spacem.org/eng/report/report_view.html?base_seq=NDE1
  5. Ingels. B, BIG. (2009). Astana National Library. Retrieved December 12, 2021 from http://www.big.dk/#projects-anl
  6. Ingels. B, BIG, & JPE Design Studio (2018). Adelaide C ontemporary International Design Competition. Retrieved December 1, 2021 from https://competitions.malcolmreading.com/adelaidecontemporary/shortlist/big-bjarke-ingels-group
  7. Killian, A. (2006). Design innovation through constraint modeling, International Journal of Architectural Computing, 1(4): 87-105 https://doi.org/10.1260/147807706777008993
  8. Knowles, R, (1977). Energy and form: an ecological approach to urban growth, MIT Press, USA
  9. Knowles, R. L. (2003). The solar envelope: its meaning for energy and buildings, Energy and Building, 35, 15-25 https://doi.org/10.1016/S0378-7788(02)00076-2
  10. Luca, F. (2017). Solar form finding, Acadia 2017: Disciplines + Disruption, 212-221
  11. Menges, A., & Ahlquist, S. (2011). Computational Design Thinking, UK, John Wiley & Sons. 10-21
  12. Miller. N. (2017). Positioning Computational Designer in your Business - 4things to Consider. Proving Ground Online. Retrieved Sep 15. 2021 from https://provingground.io/2017/02/15/positioning-computational-designers-in-your-business-4-things-to-consider/
  13. UNEP. (2020). Executive Summary of the 2020 Global Status report for buildings and construction, UN environment programme, 4-5
  14. Waldheim, C. (2016). Unbuilt Manhattan. Retrieved December 12, 2021 from https://www.gsd.harvard.edu/2016/09/archinect-talks-with-charles-waldheim-about-office-for-urbanization-and-inaugural-conference-heliomorphism/
  15. Zeiger, M. (2017). Game Changers 2017: Ralph Knowles. Metropolis, Retrieved September 03, 2021 from https://metropolismag.com/projects/ralph-knowles-pioneer-solar-design