Embedded Architecture:

Sabin, Jenny E.; Hilla, John; Pranger, Dillon; Binkley, Clayton; Bilotti, Jeremy

doi:10.2307/j.ctv13xpsvw.36

Cited by 3 publications

(3 citation statements)

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“…O tema mais abordado dentre os artigos desses autores supracitados foi o design computacional e a fabricação robótica, presente nos seguintes artigos: "Performative architectural morphology: robotically manufactured biomimetic finger-joined plate structures" ("Morfologia arquitetônica performativa: estruturas de placas biomiméticas fabricadas por robô") (Krieg et al, 2011), "Computational design of robotically manufactured plate structures based on biomimetic design principles derived from clypeasteroida" ("Projeto computacional de estruturas de placas fabricadas roboticamente com base em princípios de projeto biomimético derivados de clypeasteroida") (Krieg et al, 2012), "Re-framing architecture for emerging ecological and computational design trends for the built ecology" ("Reestruturando a arquitetura para tendências emergentes de design ecológico e computacional para a ecologia construída"), (Winn, Vollen & Dyson, 2012), "Transient thermal exchange and developmental form for tactile surfaces" ("Troca térmica transitória e forma de desenvolvimento para superfícies táteis") (Winn, 2015) e "Machinic morphospaces: biomimetic design strategies for the computational exploration of robot constraint spaces for wood fabrication" ("Morfoespaços maquínicos: estratégias de design biomimético para a exploração computacional de espaços de restrição de robôs para fabricação de madeira") (Schwinn et al, 2012), "Lumen" (Lúmen) (Sabin et al, 2018) e "Lumen" (Lúmen) (Sabin, 2019).…”

Section: Resultsunclassified

Biomimicry: an approach from the CumInCAD database

Braida¹,

Zancaneli²,

Gouvêa³

et al. 2020

Blucher Design Proceedings

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This article addresses the theme of biomimetics in the context of the interaction between architecture, urbanism, design and digital technologies. The main aim is to present the state of the art of the research published in the SIGraDI congresses and congresses of the sister associations. The methodology adopted was systematic literature and bibliometric review. The ComInCAD database was chosen as the data collection source. In the end, the text reveals in which associations the theme of biomimetics is more explored, as well as the authors who are most influential in this field of knowledge.

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Section: Resultsunclassified

Biomimicry: an approach from the CumInCAD database

Braida¹,

Zancaneli²,

Gouvêa³

et al. 2020

Blucher Design Proceedings

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“…There are different ways to affect the transformation of space, from a more physical one using an elastic and transformable envelope to a more visual one using optical illusions, as well as light, sound, and temperature, which provide scenic effects. For instance, Jenny Sabin's Ada project adapted responses to occupants' emotional information gathered from facial recognition (Sabin et al 2020). The project, which can be observed from both indoor units and circulation areas, was positioned in the gallery void of the building, creating real-time responses through the dance of colors and light.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…FER is possible by the machine learning models that try to detect landmarks on the human face to form a facial emotion. Many studies in architecture, fashion, and industrial design, such as Coutrix et al (2011), Sabin et al (2020) and Farahi (2020), used facial expressions as input data. According to Farahi, computational systems should engage not only with quantitative aspects of the human experience but also with emotional aspects of our lives.…”

Section: Facial Expression Recognition (Fer)mentioning

confidence: 99%

AI-Driven Spatial Adaptations Through Emotions: The case of emo-land as a human-centric approach

Sharafi Rohani,

Akçay Kavakoğlu

2023

eCAADe Proceedings

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The research on controlling and interacting with the environment has been accelerated by developments of artificial intelligence (AI) and the internet of things (IoT). While the quest for intelligence has been widely studied, spatial adaptation and human emotion relation remain ambiguous. This initial research attempts to investigate human-centric spatial adaptations through emotions in architecture. A case study called Emo-Land is designed to unfold the real-time relationship between space and emotion recognition. Emo-Land is an interactive spatial augmented reality installation that responds to the real-time emotions of the viewer via face expressions. A deep learning model developed to detect continuous emotions through cameras. By paying attention to the live interactive level of the detail and quality of the interaction between users and the projection mapping, the research demonstrates how advances in technology and computing can contribute to deeper connection and new layers of interactivity.Emo-Land projection mapping has been examined as a case study. According to the results, a relationship is developed between emotion recognition, form, computation, and human-computer interaction. The project contributes to the well-being of occupants, affective computing theory, and AI's role, such as the interaction between technology using affordable technologies.

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Embodied empathy: Using affective computing to incarnate human emotion and cognition in architecture

Ghandi

Blaisdell

Ismail

2021

International Journal of Architectural Computing

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This research aims to develop a cyber-physical adaptive architectural space capable of real-time responses to people’s emotions, based on biological and neurological data. To achieve this goal, we integrated artificial intelligence (AI), wearable technology, sensory environments, and adaptive architecture to create an emotional bond between a space and its occupants and encourage affective emotional interactions between the two. The project’s objectives were to (1) measure and analyze biological and neurological data to detect emotions, (2) map and illustrate that emotional data, and (3) link occupants’ emotions and cognition to a built environment through a real-time emotive feedback loop. Using an interactive installation as a case study, this work examines the cognition-emotion-space interaction through changes in volume, color, and light as a means of emotional expression. It contributes to the current theory and practice of cyber-physical design and the role AI plays, as well as the interaction of technology and empathy.

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Embedded Architecture:

Cited by 3 publications

References 0 publications

Biomimicry: an approach from the CumInCAD database

Biomimicry: an approach from the CumInCAD database

AI-Driven Spatial Adaptations Through Emotions: The case of emo-land as a human-centric approach

Embodied empathy: Using affective computing to incarnate human emotion and cognition in architecture

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