DocumentCode
3603419
Title
EEG-Based Assessment of Stereoscopic 3D Visual Fatigue Caused by Vergence-Accommodation Conflict
Author
Bochao Zou ; Yue Liu ; Mei Guo ; Yongtian Wang
Author_Institution
Beijing Eng. Res. Center of Mixed Reality & Adv. Display, Beijing Inst. of Technol., Beijing, China
Volume
11
Issue
12
fYear
2015
Firstpage
1076
Lastpage
1083
Abstract
Recent advances in 3D displays have contributed to the pressing need of new measurement methods for display comfort. Developing a valid measurement of visual fatigue caused by 3D display remains a big challenge and is beneficial for optimizing the system design. This paper assessed three electroencephalography (EEG) activities, θ, α and β, during a monotonous and repetitive random dot stereogram (RDS) based task in a conventional stereoscopic 3D display. Six types of ratio indices were computed based on EEG data and assessed as possible indicators for stereoscopic visual fatigue detection. The results of critical flicker frequency (CFF) and accommodative amplitude (ACC) showed that the proposed experiment setup can induce visual fatigue. According to the subjective ratings, the visual fatigue accumulated in this task was mostly related to the binocular vision stress of 3D display. Results of EEG data showed stable θ activity, a significant increase of α activity, and a significant decrease of β activity over time . In addition, the effectiveness of EEG indices was evaluated to measure stereoscopic visual fatigue by using grey relation analysis (GRA) and verified by correlating with CFF. The results of analysis suggest that among all nine types of EEG indices (θ, α, β, θ/β, α/β, α/θ, θ/(α+β), (α+θ)/β, (α+θ)/(α+β)), α is the most promising indicator for detecting stereoscopic visual fatigue.
Keywords
electroencephalography; medical signal detection; three-dimensional displays; visual perception; α activity; β activity; θ activity; ACC; CFF; EEG data; EEG-based assessment; GRA; RDS; accommodative amplitude; binocular vision stress; conventional stereoscopic 3D display; critical flicker frequency; electroencephalography activities; grey relation analysis; repetitive random dot stereogram; stereoscopic 3D visual fatigue; stereoscopic visual fatigue detection; system design; vergence-accommodation conflict; Analysis of variance; Electroencephalography; Fatigue; Fuses; Stereo image processing; Three-dimensional displays; Visualization; 3D display; electroencephalography (EEG); grey relation analysis; objective measurement; visual fatigue;
fLanguage
English
Journal_Title
Display Technology, Journal of
Publisher
ieee
ISSN
1551-319X
Type
jour
DOI
10.1109/JDT.2015.2451087
Filename
7140726
Link To Document