Electroencephalographic (EEG) Correlates of Visually Induced Motion Sickness (VIMS) in the Virtual Reality (VR) Based Simulations

被引:2
作者
Argasinski, Jan K. [1 ,2 ,3 ]
Lipp, Natalia [1 ,2 ]
Mazurek, Szymon [1 ]
机构
[1] Sano Ctr Computat Med, Krakow, Poland
[2] Jagiellonian Univ, Krakow, Poland
[3] Simpro Sp Zoo, Krakow, Poland
来源
HUMAN-COMPUTER INTERACTION - INTERACT 2023, PT IV | 2023年 / 14145卷
关键词
Electroencephalography; EEG; Visually Induced Motion Sickness; VIMS; Virtual Reality; VR; simulations;
D O I
10.1007/978-3-031-42293-5_5
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
In the presented study, the possibility of detecting Visually Induced Motion Sickness (VIMS) in Virtual Reality (VR) simulations using electroencephalographic (EEG) recordings was investigated. 31 adult participants were tested with VR and EEG in both VIMS and non-VIMS conditions. A correlation between EEG signals and the Simulation Sickness Questionnaire (SSQ) scores was shown, indicating that VIMS can be detected through EEG recordings.
引用
收藏
页码:59 / 67
页数:9
相关论文
共 43 条
[31]   An Adaptive Feature Extraction and Classification Method of Motion Imagery EEG Based on Virtual Reality [J].
Wang, Li ;
Fu, Huiqun ;
Zhang, Xiu-feng ;
Yang, Rong ;
Zhang, Ning ;
Ma, Fengling .
WEARABLE SENSORS AND ROBOTS, 2017, 399 :93-103
[32]   Sicknificant Steps: A Systematic Review and Meta-analysis of VR Sickness in Walking-based Locomotion for Virtual Reality [J].
van Gemert, Thomas ;
Nilsson, Niels Christian ;
Hirzle, Teresa ;
Bergstrom, Joanna .
PROCEEDINGS OF THE 2024 CHI CONFERENCE ON HUMAN FACTORS IN COMPUTING SYTEMS, CHI 2024, 2024,
[33]   Moving Sounds Enhance the Visually-Induced Self-Motion Illusion (Circular Vection) in Virtual Reality [J].
Riecke, Bernhard E. ;
Valjamae, Aleksander ;
Schulte-Pelkum, Joerg .
ACM TRANSACTIONS ON APPLIED PERCEPTION, 2009, 6 (02)
[34]   Classification of Visually Induced Motion Sickness Based on Phase-Locked Value Functional Connectivity Matrix and CNN-LSTM [J].
Shen, Zhenqian ;
Liu, Xingru ;
Li, Wenqiang ;
Li, Xueyan ;
Wang, Qiang .
SENSORS, 2024, 24 (12)
[35]   Viewpoint-sharing method with reduced motion sickness in object-based VR/AR collaborative virtual environment [J].
Tserenchimed, Tuvshintulga ;
Kim, Hyungki .
VIRTUAL REALITY, 2024, 28 (03)
[36]   VIRTOOAIR: VIrtual Reality TOOlbox for Avatar Intelligent Reconstruction System for VR motion reconstruction based on a VR tracking system and a single RGB camera [J].
Becher, Armin ;
Axenie, Cristian ;
Grauschopf, Thomas .
ADJUNCT PROCEEDINGS OF THE 2018 IEEE INTERNATIONAL SYMPOSIUM ON MIXED AND AUGMENTED REALITY (ISMAR), 2018, :275-279
[37]   The Development of a Virtual Reality-based Training System for Prosthetic Foot Users: Effects on Motion Sickness and Postural Stability [J].
Pujiartati, Dwita Astari ;
Salsabila, Meivia Nisrina ;
Muslim, Khoirul ;
Yassierli ;
Akbar, Saiful .
INDUSTRIAL ENGINEERING AND MANAGEMENT SYSTEMS, 2024, 23 (01) :103-111
[38]   Quantitative evaluation of effects of visually-induced motion sickness based on causal coherence functions between blood pressure and heart rate [J].
Sugita, N. ;
Yoshizawa, M. ;
Tanaka, A. ;
Abe, K. ;
Chiba, S. ;
Yambe, T. ;
Nitta, S. .
DISPLAYS, 2008, 29 (02) :167-175
[39]   Evaluation of adaptation to visually induced motion sickness based on the maximum cross-correlation between pulse transmission time and heart rate [J].
Norihiro Sugita ;
Makoto Yoshizawa ;
Makoto Abe ;
Akira Tanaka ;
Takashi Watanabe ;
Shigeru Chiba ;
Tomoyuki Yambe ;
Shin-ichi Nitta .
Journal of NeuroEngineering and Rehabilitation, 4
[40]   An old approach to a novel problem: effect of combined balance therapy on virtual reality induced motion sickness: a randomized, placebo controlled, double-blinded study [J].
Ramazan, Kurul ;
Devran, Altuntas Yasin ;
Muhammed, Ogun Nur .
BMC MEDICAL EDUCATION, 2024, 24 (01)
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