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Enhancing Student Learning in Virtual Classrooms: Effects of Window View Content and Time of Day

As virtual classrooms, traditional physical classroom environments are transformed into flexible virtual environments, allowing customization of environmental elements to enhance student learning. This study explored the effects of window settings in virtual classrooms on learning experiences of stu...

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Published in:	IEEE access 2024, Vol.12, p.152630-152638
Main Authors:	Jang, Dajeong, Kim, Han-Jong, Choi, Kyungah
Format:	Article
Language:	English
Subjects:	Alertness Brain modeling CAI Classrooms Cognitive tasks Colleges & universities Computer assisted instruction Customization Daytime educational experience Educational programs Electronic learning Image color analysis Learning Learning systems Lighting Mood Online instruction Particle measurements Physiological responses Physiology Productivity Students Sunset Time of use virtual classroom Virtual environments Virtual reality Visualization Window view
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creator	Jang, Dajeong Kim, Han-Jong Choi, Kyungah
description	As virtual classrooms, traditional physical classroom environments are transformed into flexible virtual environments, allowing customization of environmental elements to enhance student learning. This study explored the effects of window settings in virtual classrooms on learning experiences of students. Utilizing a within-subjects design, we simulated a virtual classroom environment with seven unique window settings and varied its view content (nature vs. urban) and time of day (daytime, sunset, and night). We also simulated a windowless condition. Thirty-five university students participated in the study and performed subjective evaluations and cognitive tasks. Moreover, their physiological responses were recorded using electroencephalogram measurements. The results indicated that environments with windows increased the perception of spaciousness and promoted a state of relaxed alertness, as evidenced by increased fast alpha brainwave activity. In contrast, settings without windows or with urban views increased the sense of presence. Daytime views positively affected valence, motivation, spaciousness, and concentration, whereas nighttime views were the least preferred. No significant differences were observed in cognitive task performance across the different conditions. These findings underscore the necessity of customizing virtual learning environments to meet individual user needs. By allowing students to adjust their virtual environments, educators and space designers can create more flexible and personalized virtual-reality educational spaces, ultimately improving learning outcomes.
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subjects	Alertness Brain modeling CAI Classrooms Cognitive tasks Colleges & universities Computer assisted instruction Customization Daytime educational experience Educational programs Electronic learning Image color analysis Learning Learning systems Lighting Mood Online instruction Particle measurements Physiological responses Physiology Productivity Students Sunset Time of use virtual classroom Virtual environments Virtual reality Visualization Window view
title	Enhancing Student Learning in Virtual Classrooms: Effects of Window View Content and Time of Day
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