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Main Authors: Chwalek, Patrick, Zhong, Sailin, Perry, Nathan, Liu, Tianqi, Miller, Clayton, Alavi, Hamed Seiied, Lalanne, Denis, Paradiso, Joseph A.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2408.08323
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author Chwalek, Patrick
Zhong, Sailin
Perry, Nathan
Liu, Tianqi
Miller, Clayton
Alavi, Hamed Seiied
Lalanne, Denis
Paradiso, Joseph A.
author_facet Chwalek, Patrick
Zhong, Sailin
Perry, Nathan
Liu, Tianqi
Miller, Clayton
Alavi, Hamed Seiied
Lalanne, Denis
Paradiso, Joseph A.
contents This study presents a comprehensive dataset capturing indoor environmental parameters, physiological responses, and subjective perceptions across three global cities. Utilizing wearable sensors, including smart eyeglasses, and a modified Cozie app, environmental and physiological data were collected, along with pre-screening, onboarding, and recurring surveys. Peripheral cues facilitated participant engagement with micro-EMA surveys, minimizing disruption over a 5-day collection period. The dataset offers insights into urban comfort dynamics, highlighting the interplay between environmental conditions, physiological responses, and subjective perceptions. Researchers can utilize this dataset to deepen their understanding of indoor environmental quality and inform the design of healthier built environments. Access to this dataset can advance indoor environmental research and contribute to the creation of more comfortable and sustainable indoor spaces.
format Preprint
id arxiv_https___arxiv_org_abs_2408_08323
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Exploring Urban Comfort through Novel Wearables and Environmental Surveys
Chwalek, Patrick
Zhong, Sailin
Perry, Nathan
Liu, Tianqi
Miller, Clayton
Alavi, Hamed Seiied
Lalanne, Denis
Paradiso, Joseph A.
Human-Computer Interaction
This study presents a comprehensive dataset capturing indoor environmental parameters, physiological responses, and subjective perceptions across three global cities. Utilizing wearable sensors, including smart eyeglasses, and a modified Cozie app, environmental and physiological data were collected, along with pre-screening, onboarding, and recurring surveys. Peripheral cues facilitated participant engagement with micro-EMA surveys, minimizing disruption over a 5-day collection period. The dataset offers insights into urban comfort dynamics, highlighting the interplay between environmental conditions, physiological responses, and subjective perceptions. Researchers can utilize this dataset to deepen their understanding of indoor environmental quality and inform the design of healthier built environments. Access to this dataset can advance indoor environmental research and contribute to the creation of more comfortable and sustainable indoor spaces.
title Exploring Urban Comfort through Novel Wearables and Environmental Surveys
topic Human-Computer Interaction
url https://arxiv.org/abs/2408.08323