Difference between revisions of "Quantified Buildings and Modelling"

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[[DC I/O 2021]] Keynote Paper by [[DAVID KIRSH]].
 
[[DC I/O 2021]] Keynote Paper by [[DAVID KIRSH]].
  
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[[File:Kirsh2023.png|center|800px]]
  
 
=Abstract=
 
=Abstract=
Professor David Kirsch’s keynote delves into the intricate relationship between human interaction and architectural structures, emphasizing the necessity of studying human behavior within built environments. He introduces the concept of ‘quantified buildings’, a paradigm where architecture is both a determinant and reflection of human activity patterns. Sensor technology and machine learning are highlighted as critical for analyzing extensive datasets to glean insights into human behaviors within these spaces.
 
  
Kirsch explores the potential of AI agents in 3D simulated environments for evaluating and enhancing architectural designs. These simulations offer insights into the impact of various architectural and design elements on human activity, addressing the complexities arising from the intersectionality and dynamism of social interactions.
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In Professor David Kirsch's illuminating keynote, he articulates the emergent concept of "quantified buildings," underscoring an intricate exploration of human behavioural dynamics within architectural confines. Despite the significant amount of time spent indoors—surpassing 85% of human life—Kirsch posits a glaring void in empirical insights and scientific exploration concerning interactions within the built environment.
  
The keynote underscores a transformative potential where architectural design, augmented by technology, becomes an interactive space attuned to complex human behavioral patterns (Kirsch, 2023). This intersection between cognitive science and architecture promises a new era of built environments, reflecting and facilitating the multifaceted aspects of human existence and interaction.
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Kirsch’s discourse gravitates towards an innovative fusion of sensor technology and machine learning, envisaging a paradigm where vast datasets become instrumental in extrapolating nuanced human behaviours, anchored in contextualized architectural and environmental settings. The professor extrapolates on the integration of artificial intelligence (AI) agents within three-dimensional simulated environments, postulating a novel methodology for assessing and refining architectural designs. This is predicated on predictive analytics, providing insights into occupant behaviours and social dynamics, contingent on diverse architectural nuances.
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The keynote delineates intrinsic challenges manifest in this innovative trajectory. Human behaviours, characterized by their complexity and the multifaceted interplay within shared architectural spaces, present nuanced variables that defy simplistic analytical frameworks. However, Kirsch’s conclusive stance resonates with optimism, suggesting that surmounting these intricate challenges can precipitate a renaissance in both architectural design and cognitive science. Such advancements would inaugurate edifices and spaces intrinsically attuned to human behavioural patterns, predilections, and interactive dynamics, marking a seminal departure from extant paradigms.
  
 
=Presentation=
 
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=Keywords=
 
=Keywords=
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[[Quantified Buildings]], [[Human Behavioural Dynamics]], [[Sensor Technology]], [[Machine Learning]], [[Artificial Intelligence Agents]], [[Three-Dimensional Simulated Environments]], [[Predictive Analytics]], [[Social Dynamics]], [[Cognitive Science]], [[Architectural Design]]
  
 
=Reference=
 
=Reference=

Latest revision as of 19:42, 13 October 2023

DCIO2021-Logo.png
DC I/O 2021 Keynote Paper by DAVID KIRSH.
Kirsh2023.png

Abstract

In Professor David Kirsch's illuminating keynote, he articulates the emergent concept of "quantified buildings," underscoring an intricate exploration of human behavioural dynamics within architectural confines. Despite the significant amount of time spent indoors—surpassing 85% of human life—Kirsch posits a glaring void in empirical insights and scientific exploration concerning interactions within the built environment.

Kirsch’s discourse gravitates towards an innovative fusion of sensor technology and machine learning, envisaging a paradigm where vast datasets become instrumental in extrapolating nuanced human behaviours, anchored in contextualized architectural and environmental settings. The professor extrapolates on the integration of artificial intelligence (AI) agents within three-dimensional simulated environments, postulating a novel methodology for assessing and refining architectural designs. This is predicated on predictive analytics, providing insights into occupant behaviours and social dynamics, contingent on diverse architectural nuances.

The keynote delineates intrinsic challenges manifest in this innovative trajectory. Human behaviours, characterized by their complexity and the multifaceted interplay within shared architectural spaces, present nuanced variables that defy simplistic analytical frameworks. However, Kirsch’s conclusive stance resonates with optimism, suggesting that surmounting these intricate challenges can precipitate a renaissance in both architectural design and cognitive science. Such advancements would inaugurate edifices and spaces intrinsically attuned to human behavioural patterns, predilections, and interactive dynamics, marking a seminal departure from extant paradigms.

Presentation

Left Video Recording.

Conference Paper

Left Conference Paper.

Keywords

Quantified Buildings, Human Behavioural Dynamics, Sensor Technology, Machine Learning, Artificial Intelligence Agents, Three-Dimensional Simulated Environments, Predictive Analytics, Social Dynamics, Cognitive Science, Architectural Design

Reference

DOI: https://doi.org/10.47330/DCIO.2021.BXMI1626

Bibliography

PENDING