Influence of blue/green versus red and white light sources on human dark adaptation and other selected visual functions

Hendrikse, Egbert Johannes

Title: Influence of blue/green versus red and white light sources on human dark adaptation and other selected visual functions
Creator: Hendrikse, Egbert Johannes
Subject: Light -- Physiological effect Lighting Vision -- Research Night vision Visual acuity Color -- Physiological effect Color vision
Date Issued: 1994
Date: 1994
Type: Thesis
Type: Doctoral
Type: PhD
Identifier: vital:5146
Identifier: http://hdl.handle.net/10962/d1009497
Description: Red interior lighting used to preserve dark-adaptation needs to be replaced in military applications by blue/green lighting which is not detectable by 3rd-generation image intensifiers. This study investigated the influence of blue/green as compared to red and white light of equal photopic intensity on subsequent visual acuity , contrast sensitivity and dark-adaptation. Male subjects (n = 90) were assigned to one of 15 treatment conditions (n = 6) as determined by the colour (blue/green, red or white) and intensity (0.1; 0.4; 1.6; 6.4 and 25.6 cd/m²) of the pre-adaptation stimuli. A modified Goldmann/Weekers adaptometer was used to present the preadaptation stimuli, test stimuli and record visual (luminance) thresholds of each subject. Blue/green lighting had the same affect on visual (photopic) acuity and contrast sensitivity as white and red lighting. Blue/green affected visual (absolute) threshold at the start and during the process of dark-adaptation in the same manner as white but not the same as red lighting. White and red lighting did not differ significantly (p < 0.01) at low intensities (mesopic range) but did at the higher intensities (photopic range). After exposure to blue/green and white light, it will take longer to reach the same level of dark-adaptation than after exposure to red. These time differences increase with" increased intensities. The brightness ratio between red and white lights to produce the same dark-adaptation increases with an increase in intensity. At the upper mesopic region the differences between the effects of white and red lighting on subsequent dark-adaptation become irregular due to the inability to accurately equate non-monochromatic lights in the mesopic range.
Format: 177 leaves
Format: pdf
Publisher: Rhodes University
Publisher: Faculty of Science, Human Movement Studies
Language: English
Rights: Hendrikse, Egbert Johannes

Hits: 834
Visitors: 890
Downloads: 176

Collections

RU Department of Human Kinetics and Ergonomics

		Thumbnail	File	Description	Size	Format
View Details Download			SOURCEPDF	PDF	4 MB	Adobe Acrobat PDF	View Details Download