Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings

For engineering applications, human comfort in the built environment depends on several objective aspects that can be mathematically controlled and limited to reference performance indicators. Typical examples include structural, energy and thermal issues, and others. Human reactions, however, are a...

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Main Authors: Chiara Bedon, Silvana Mattei
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Buildings
Subjects:
Online Access:https://www.mdpi.com/2075-5309/11/5/204
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spelling doaj-bb5dab01905d4efd9e486670e9e473f22021-06-01T00:03:05ZengMDPI AGBuildings2075-53092021-05-011120420410.3390/buildings11050204Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in BuildingsChiara Bedon0Silvana Mattei1Department of Engineering and Architecture, University of Trieste, 34127 Trieste, ItalyDepartment of Engineering and Architecture, University of Trieste, 34127 Trieste, ItalyFor engineering applications, human comfort in the built environment depends on several objective aspects that can be mathematically controlled and limited to reference performance indicators. Typical examples include structural, energy and thermal issues, and others. Human reactions, however, are also sensitive to a multitude of aspects that can be associated with design concepts of the so-called “emotional architecture”, through which subjective feelings, nervous states and emotions of end-users are evoked by constructional details. The interactions of several objective and subjective parameters can make the “optimal” building design challenging, and this is especially the case for new technical concepts, constructional materials and techniques. In this paper, a remote experimental methodology is proposed to explore and quantify the prevailing human reactions and psychological comfort trends for building occupants, with a focus on end-users exposed to structural glass environments. Major advantages were taken from the use of virtual visual stimuli and facial expression automatic recognition analysis, and from the active support of 30 volunteers. As shown, while glass is often used in constructions, several intrinsic features (transparency, brittleness, etc.) are responsible for subjective feelings that can affect the overall psychological comfort of users. In this regard, the use of virtual built environments and facial expression analysis to quantify human reactions can represent an efficient system to support the building design process.https://www.mdpi.com/2075-5309/11/5/204structural glassbuilding designhuman reactionspsychological comfortexperimentsvirtual reality (VR)
collection DOAJ
language English
format Article
sources DOAJ
author Chiara Bedon
Silvana Mattei
spellingShingle Chiara Bedon
Silvana Mattei
Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings
Buildings
structural glass
building design
human reactions
psychological comfort
experiments
virtual reality (VR)
author_facet Chiara Bedon
Silvana Mattei
author_sort Chiara Bedon
title Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings
title_short Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings
title_full Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings
title_fullStr Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings
title_full_unstemmed Facial Expression-Based Experimental Analysis of Human Reactions and Psychological Comfort on Glass Structures in Buildings
title_sort facial expression-based experimental analysis of human reactions and psychological comfort on glass structures in buildings
publisher MDPI AG
series Buildings
issn 2075-5309
publishDate 2021-05-01
description For engineering applications, human comfort in the built environment depends on several objective aspects that can be mathematically controlled and limited to reference performance indicators. Typical examples include structural, energy and thermal issues, and others. Human reactions, however, are also sensitive to a multitude of aspects that can be associated with design concepts of the so-called “emotional architecture”, through which subjective feelings, nervous states and emotions of end-users are evoked by constructional details. The interactions of several objective and subjective parameters can make the “optimal” building design challenging, and this is especially the case for new technical concepts, constructional materials and techniques. In this paper, a remote experimental methodology is proposed to explore and quantify the prevailing human reactions and psychological comfort trends for building occupants, with a focus on end-users exposed to structural glass environments. Major advantages were taken from the use of virtual visual stimuli and facial expression automatic recognition analysis, and from the active support of 30 volunteers. As shown, while glass is often used in constructions, several intrinsic features (transparency, brittleness, etc.) are responsible for subjective feelings that can affect the overall psychological comfort of users. In this regard, the use of virtual built environments and facial expression analysis to quantify human reactions can represent an efficient system to support the building design process.
topic structural glass
building design
human reactions
psychological comfort
experiments
virtual reality (VR)
url https://www.mdpi.com/2075-5309/11/5/204
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