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fMRI analysis of excessive binocular disparity on the human brain
Author(s) -
Kim Dongchan,
Jung Yong Ju,
Han Yeji,
Choi Joonsung,
Kim Eunwoo,
Jeong BumSeok,
Ro Yong Man,
Park HyunWook
Publication year - 2014
Publication title -
international journal of imaging systems and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.359
H-Index - 47
eISSN - 1098-1098
pISSN - 0899-9457
DOI - 10.1002/ima.22083
Subject(s) - intraparietal sulcus , binocular disparity , stimulus (psychology) , stereoscopy , binocular vision , functional magnetic resonance imaging , vergence (optics) , accommodation , psychology , eye movement , computer vision , audiology , neuroscience , computer science , cognitive psychology , medicine
The aim of this study is to evaluate brain regions related with excessive binocular disparity that may be linked to stereoscopic visual fatigue. In stereoscopic displays, excessive binocular disparity may generate blurring or double vision in the stereovision and induce unnatural oscillations in accommodation and vergence. These phenomena may lead to visual fatigue and activation (or deactivation) of human brain related with sensory and eye movement functions. A functional magnetic resonance imaging (fMRI) method is used to investigate the effect of excessive binocular disparity on human brain. Subjective assessments of visual fatigue are also conducted with the same stimuli as the fMRI experiment. Based on the subjective assessment results, participants are classified into low‐ and high‐fatigue groups. From the fMRI experiments, the high‐fatigue group showed more activation at the intraparietal sulcus (IPS) than the low‐fatigue group, when viewing an excessive disparity stimulus. The results showed that the excessive binocular disparity stimulus may induce overload to the IPS region, which is related with stereo processing and saccadic eye movement. In addition, it could be possible to use fMRI as an objective measurement method for understanding the stereoscopic visual fatigue when stimuli with excessive binocular disparity are applied.