Neural Applications Using Immersive Virtual Reality: A Review on EEG Studies

Recent advancements in immersive virtual reality head-mounted displays allowed users to better engage with simulated graphical environments. Having the screen egocentrically stabilized in a way such that the users may freely rotate their heads to observe virtual surroundings, head-mounted displays p...

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Published in:IEEE transactions on neural systems and rehabilitation engineering 2023-01, Vol.31, p.1-1
Main Authors: Choi, Jin Woo, Kwon, Haram, Choi, Jaehoon, Kaongoen, Netiwit, Hwang, Chaeeun, Kim, Minuk, Kim, Byung Hyung, Jo, Sungho
Format: Article
Language:English
Subjects:
Computer applications
Displays
EEG
electroencephalogram (EEG)
Electroencephalography
Electromyography
Head-mounted displays
Helmet mounted displays
Humans
Immersive virtual reality
immersive virtual reality (VR)
Neural activity
neural analysis
Neurons
Virtual Reality
Visualization
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cited_by cdi_FETCH-LOGICAL-c462t-9d569e69c993571963e57e2aac4294179682c8380187b7608a443d82097c201b3
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container_title IEEE transactions on neural systems and rehabilitation engineering
container_volume 31
creator Choi, Jin Woo
Kwon, Haram
Choi, Jaehoon
Kaongoen, Netiwit
Hwang, Chaeeun
Kim, Minuk
Kim, Byung Hyung
Jo, Sungho
description Recent advancements in immersive virtual reality head-mounted displays allowed users to better engage with simulated graphical environments. Having the screen egocentrically stabilized in a way such that the users may freely rotate their heads to observe virtual surroundings, head-mounted displays present virtual scenarios with rich immersion. With such an enhanced degree of freedom, immersive virtual reality displays have also been integrated with electroencephalograms, which make it possible to study and utilize brain signals non-invasively, to analyze and apply their capabilities. In this review, we introduce recent progress that utilized immersive head-mounted displays along with electroencephalograms across various fields, focusing on the purposes and experimental designs of their studies. The paper also highlights the effects of using immersive virtual reality discovered through the electroencephalogram analysis and discusses existing limitations, current trends as well as future research opportunities that may hopefully act as a useful source of information for further improvement of electroencephalogram-based immersive virtual reality applications.
doi_str_mv 10.1109/TNSRE.2023.3254551
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subjects Computer applications
Displays
EEG
electroencephalogram (EEG)
Electroencephalography
Electromyography
Head-mounted displays
Helmet mounted displays
Humans
Immersive virtual reality
immersive virtual reality (VR)
Neural activity
neural analysis
Neurons
Virtual Reality
Visualization
title Neural Applications Using Immersive Virtual Reality: A Review on EEG Studies
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