Luminance and vertical eye illuminance thresholds for occupants’ visual comfort in daylit office environments

This paper investigates field measured visual parameters inside a daylit office space to define occupants' visual comfort thresholds, particularly for a view direction parallel to windows. Twelve human subjects performed a computer-based reading and typing task and provided subjective responses...

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Bibliographic Details
Published inBuilding and environment Vol. 148; pp. 107 - 115
Main Author Suk, Jae Yong
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 15.01.2019
Elsevier BV
Subjects
Accuracy
Comfort
Daylight
Daylighting
Fixtures
Glare
Harvesting
HDR (high dynamic range) photography
Human performance
Human subject study
Illuminance
Indoor environments
Light sources
Lighting
Luminance
Parameters
Photography
Qualitative analysis
Statistical analysis
Thresholds
Typing
Unified glare rating
Vertical eye illuminance
Visual comfort
Visual fields
Visual thresholds
Windows (computer programs)
Visual comfort
HDR (high dynamic range) photography
Luminance
Human subject study
Daylighting
Vertical eye illuminance
Online AccessGet full text
ISSN0360-1323
1873-684X
DOI10.1016/j.buildenv.2018.10.058

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Abstract This paper investigates field measured visual parameters inside a daylit office space to define occupants' visual comfort thresholds, particularly for a view direction parallel to windows. Twelve human subjects performed a computer-based reading and typing task and provided subjective responses on various luminous environments, which were created by adjusting interior venetian blinds and electric lighting fixtures. A total of 120 different lighting conditions were tested and documented for both quantitative and qualitative analysis. High dynamic range photography was conducted to capture the luminance distributions of interior surfaces in addition to horizontal and vertical illuminance measurements by sensors. Statistical analysis of the collected data defined occupants’ visual comfort thresholds: a luminance of 2420 cd/m2 and luminance contrast ratio of 11.7. These new thresholds lie perfectly within the existing visual discomfort threshold ranges and confirm that a higher glare source luminance is tolerant in a view direction parallel to windows compared to view facing windows. A vertical eye illuminance threshold was also defined, but there are large discrepancies among the existing and newly defined thresholds. The collected subjective survey data also revealed 53%–60% evaluation accuracy rates of the existing glare indices. Daylight Glare Index and Unified Glare Rating metrics show the highest evaluation accuracy when daylight is the only light source. The CIE Glare Index metric shows the highest accuracy when both natural and electric lighting are introduced. Full understanding of visual comfort parameters and validation of the existing glare indices would help to achieve successful daylight harvesting in buildings. •Occupant's visual comfort parameters were investigated in a daylit office space.•Various luminous environments were created by interior blinds and electric lights.•Visual comfort thresholds were defined for luminance, contrast, and illuminance.•Existing glare metrics were validated based on the collected human subject data.
AbstractList This paper investigates field measured visual parameters inside a daylit office space to define occupants' visual comfort thresholds, particularly for a view direction parallel to windows. Twelve human subjects performed a computer-based reading and typing task and provided subjective responses on various luminous environments, which were created by adjusting interior venetian blinds and electric lighting fixtures. A total of 120 different lighting conditions were tested and documented for both quantitative and qualitative analysis. High dynamic range photography was conducted to capture the luminance distributions of interior surfaces in addition to horizontal and vertical illuminance measurements by sensors. Statistical analysis of the collected data defined occupants’ visual comfort thresholds: a luminance of 2420 cd/m2 and luminance contrast ratio of 11.7. These new thresholds lie perfectly within the existing visual discomfort threshold ranges and confirm that a higher glare source luminance is tolerant in a view direction parallel to windows compared to view facing windows. A vertical eye illuminance threshold was also defined, but there are large discrepancies among the existing and newly defined thresholds. The collected subjective survey data also revealed 53%–60% evaluation accuracy rates of the existing glare indices. Daylight Glare Index and Unified Glare Rating metrics show the highest evaluation accuracy when daylight is the only light source. The CIE Glare Index metric shows the highest accuracy when both natural and electric lighting are introduced. Full understanding of visual comfort parameters and validation of the existing glare indices would help to achieve successful daylight harvesting in buildings. •Occupant's visual comfort parameters were investigated in a daylit office space.•Various luminous environments were created by interior blinds and electric lights.•Visual comfort thresholds were defined for luminance, contrast, and illuminance.•Existing glare metrics were validated based on the collected human subject data.
This paper investigates field measured visual parameters inside a daylit office space to define occupants' visual comfort thresholds, particularly for a view direction parallel to windows. Twelve human subjects performed a computer-based reading and typing task and provided subjective responses on various luminous environments, which were created by adjusting interior venetian blinds and electric lighting fixtures. A total of 120 different lighting conditions were tested and documented for both quantitative and qualitative analysis. High dynamic range photography was conducted to capture the luminance distributions of interior surfaces in addition to horizontal and vertical illuminance measurements by sensors. Statistical analysis of the collected data defined occupants’ visual comfort thresholds: a luminance of 2420 cd/m2 and luminance contrast ratio of 11.7. These new thresholds lie perfectly within the existing visual discomfort threshold ranges and confirm that a higher glare source luminance is tolerant in a view direction parallel to windows compared to view facing windows. A vertical eye illuminance threshold was also defined, but there are large discrepancies among the existing and newly defined thresholds. The collected subjective survey data also revealed 53%–60% evaluation accuracy rates of the existing glare indices. Daylight Glare Index and Unified Glare Rating metrics show the highest evaluation accuracy when daylight is the only light source. The CIE Glare Index metric shows the highest accuracy when both natural and electric lighting are introduced. Full understanding of visual comfort parameters and validation of the existing glare indices would help to achieve successful daylight harvesting in buildings.
Author Suk, Jae Yong
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Keywords Visual comfort
HDR (high dynamic range) photography
Luminance
Human subject study
Daylighting
Vertical eye illuminance
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Snippet This paper investigates field measured visual parameters inside a daylit office space to define occupants' visual comfort thresholds, particularly for a view...
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elsevier
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SubjectTerms Accuracy
Comfort
Daylight
Daylighting
Fixtures
Glare
Harvesting
HDR (high dynamic range) photography
Human performance
Human subject study
Illuminance
Indoor environments
Light sources
Lighting
Luminance
Parameters
Photography
Qualitative analysis
Statistical analysis
Thresholds
Typing
Unified glare rating
Vertical eye illuminance
Visual comfort
Visual fields
Visual thresholds
Windows (computer programs)
Title Luminance and vertical eye illuminance thresholds for occupants’ visual comfort in daylit office environments
URI https://dx.doi.org/10.1016/j.buildenv.2018.10.058
https://www.proquest.com/docview/2186206852
Volume 148
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