Impact of parallax and interpupillary distance on size judgment performances of virtual objects in stereoscopic displays

Impact of parallax and interpupillary distance on size judgment performances of virtual objects in stereoscopic displays

Effective interactions in both real and stereoscopic environments require accurate perceptions of size and position. This study investigated the effects of parallax and interpupillary distance (IPD) on size perception of virtual objects in widescreen stereoscopic environments. Twelve participants vi...

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Bibliographic Details
Published in:Ergonomics Vol. 62; no. 1; pp. 76 - 87
Main Authors: Woldegiorgis, Bereket Haile, Lin, Chiuhsiang Joe, Liang, Wei-Zhe
Format: Journal Article
Language:English
Published: England Taylor & Francis 02-01-2019
Taylor & Francis LLC
Subjects:
Circular plates
Compression
Depth perception
Estimates
interpupillary distance
Judgments
Multiple regression models
Parallax
Perception
Perceptions
Regression analysis
size perception
Space life sciences
Stereoscopic displays
Stereoscopy
Variance analysis
Virtual environments
virtual reality
Wide screen
virtual reality
Stereoscopic displays
size perception
parallax
interpupillary distance
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Summary:Effective interactions in both real and stereoscopic environments require accurate perceptions of size and position. This study investigated the effects of parallax and interpupillary distance (IPD) on size perception of virtual objects in widescreen stereoscopic environments. Twelve participants viewed virtual spherical targets displayed at seven different depth positions, based on seven parallax levels. A perceptual matching task using five circular plates of different sizes was used to report the size judgment. The results indicated that the virtual objects were perceived as larger and smaller than the corresponding theoretical sizes, respectively, in negative and positive parallaxes. Similarly, the estimates from participants with small IPDs were greater than the predicted estimates. The findings of this study are used to explain human factor issues such as the phenomenon of inaccurate depth judgments in virtual environments, where compression is widely reported, especially at farther egocentric distances. Furthermore, a multiple regression model was developed to describe how the size was affected by parallax and IPD. Practitioner Summary: The study investigates the effects of parallax and interpupillary distance on size perception of virtual targets in a stereoscopic environment. Virtual objects were perceived as larger in negative and smaller in positive parallax. Also, size estimates were greater than the theoretical sizes for participants with smaller IPD. A multiple-regression model explains the impact of parallax and measured IPD. Abbreviations IPD interpupillary distance VR virtual eality HMD head mounted-displays 2AFC two-alternative forced choice IOD interocular distance PD pupillary distance ANOVA analysis of variance
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content type line 23
ISSN:0014-0139
1366-5847
DOI:10.1080/00140139.2018.1526328