TY - JOUR
T1 - Can urban design be a science for health studies?
AU - Koohsari, MohammadJavad
AU - Kaczynski, Andrew T.
AU - Ozbil Torun, Ayse
AU - Oka, Koichiro
N1 - Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature Limited 2024.
PY - 2024
Y1 - 2024
N2 - Urban design is an interdisciplinary discipline integrating elements of science and art, depending on each discipline being researched or practiced. Its classification as a science, a non-science (i.e., an art), or both, remains a widely debated topic in the field. This paper presents at least three reasons why urban design can be treated as a science (not an art) in particular fields, such as population health, which require more objective tools and indicators: the importance of systematic data analysis, the emphasis on evidence-based decisions and assessments, and the significance of interdisciplinary collaboration. This scientific perspective enables urban design to more effectively address public health challenges in built environments. Further, the paper proposes key future directions to enhance the scientific approach to urban design in relation to population health. These include the development of standardised terminology and metrics, the application of data-driven technologies such as geospatial artificial intelligence, the establishment of science-based urban design codes and policies, and the enhancement of urban design education through scientific research methods. These steps are essential to advance the scientific understanding of urban design’s impact on health.
AB - Urban design is an interdisciplinary discipline integrating elements of science and art, depending on each discipline being researched or practiced. Its classification as a science, a non-science (i.e., an art), or both, remains a widely debated topic in the field. This paper presents at least three reasons why urban design can be treated as a science (not an art) in particular fields, such as population health, which require more objective tools and indicators: the importance of systematic data analysis, the emphasis on evidence-based decisions and assessments, and the significance of interdisciplinary collaboration. This scientific perspective enables urban design to more effectively address public health challenges in built environments. Further, the paper proposes key future directions to enhance the scientific approach to urban design in relation to population health. These include the development of standardised terminology and metrics, the application of data-driven technologies such as geospatial artificial intelligence, the establishment of science-based urban design codes and policies, and the enhancement of urban design education through scientific research methods. These steps are essential to advance the scientific understanding of urban design’s impact on health.
KW - Art
KW - Built environment
KW - Evidence
KW - Population health
KW - Science-based urban design
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U2 - 10.1057/s41289-024-00250-7
DO - 10.1057/s41289-024-00250-7
M3 - Article
AN - SCOPUS:85197372633
SN - 1357-5317
JO - Urban Design International
JF - Urban Design International
ER -