Effects of indoor lighting environments on paper reading efficiency and brain fatigue: an experimental study

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Anqi Zhou, Younghwan Pan
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Abstract

Introduction: This study investigated the influence of indoor lighting environments on paper reading efficiency and brain fatigue to explore lighting parameters that benefit users during various reading durations.Methods: The study was conducted in the Smart Lighting Lab, where 12 participants were tested under different illuminance levels and correlated color temperatures (CCT) for three distinct reading durations. Reading efficiency during the task tests and objective measures of brain activity by monitoring participants’ electroencephalograms (EEGs) were used as key factors to assess participants’ fatigue levels.Results: By analyzing the subjective and objective results, we found that paper reading efficiency was significantly affected by changes in the lighting environment. Also, based on the results of this study, we propose lighting recommendations for paper reading tasks of different durations. For a 15 min reading task, the lighting condition of 500 lux-6,500 K were the most efficient for reading; for a 30 min reading task, 500 lux-4,000 K lighting environments were found to be the most effective; and 750 lux-6,500 K was the best lighting environment for a 60 min reading duration.Discussion: These suggestions can serve as a reference for designing indoor lighting environment. In addition, they provide guidance to researchers and reviewers conducting similar studies.
室内照明环境对纸张阅读效率和大脑疲劳的影响:一项实验研究
简介:本研究调查了室内照明环境对纸质阅读效率和大脑疲劳的影响:本研究调查了室内照明环境对纸张阅读效率和大脑疲劳的影响,以探索在不同阅读持续时间内对用户有益的照明参数:研究在智能照明实验室进行,12 名参与者在不同照度水平和相关色温(CCT)下接受了三个不同阅读时间段的测试。任务测试期间的阅读效率和通过监测参与者的脑电图(EEG)对大脑活动进行的客观测量被用作评估参与者疲劳程度的关键因素:通过分析主观和客观结果,我们发现照明环境的变化会显著影响纸张阅读效率。同时,根据研究结果,我们提出了针对不同持续时间的纸质阅读任务的照明建议。对于 15 分钟的阅读任务,500 勒克斯-6,500 千瓦时的照明条件对阅读最有效;对于 30 分钟的阅读任务,500 勒克斯-4,000 千瓦时的照明环境最有效;而对于 60 分钟的阅读时间,750 勒克斯-6,500 千瓦时的照明环境最佳:这些建议可作为设计室内照明环境的参考。讨论:这些建议可作为设计室内照明环境的参考,并为开展类似研究的研究人员和评审人员提供指导。
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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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