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Distance Perception in Virtual Reality: A Meta-Analysis of the Effect of Head-Mounted Display Characteristics

Jonathan W. Kelly

2022IEEE Transactions on Visualization and Computer Graphics76 citationsDOI

Abstract

Distances are commonly underperceived in virtual reality (VR), and this finding has been documented repeatedly over more than two decades of research. Yet, there is evidence that perceived distance is more accurate in modern compared to older head-mounted displays (HMDs). This meta-analysis, based on 137 samples from 61 publications, describes egocentric distance perception across 20 HMDs and examines the relationship between perceived distance and technical HMD characteristics. Judged distance was positively associated with HMD field of view (FOV), positively associated with HMD resolution, and negatively associated with HMD weight. The effects of FOV and resolution were more pronounced among heavier HMDs. These findings suggest that future improvements in these technical characteristics may be central to resolving the problem of distance underperception in VR.

Topics & Concepts

Virtual realityPerceptionOptical head-mounted displayComputer scienceAugmented realityArtificial intelligenceComputer visionDistance transformComputer graphics (images)PsychologyNeuroscienceImage (mathematics)Virtual Reality Applications and ImpactsVisual perception and processing mechanismsAdvanced Optical Imaging Technologies
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