The effect of gender on vection perception and postural responses induced by immersive virtual rotation drum

Wei, Miaoluan; Luo, Jie; Luo, Haizhen; Song, Rong

doi:10.1109/ner.2017.8008392

Cited by 5 publications

(1 citation statement)

References 15 publications

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“…This finding is in line to previous studies [6], [8]. Studies also shows that females have slower rate of adapting to virtual reality environment compared to the males, indicating that VR or any type of stressor will give higher impact in females with compared to males [29], [30].…”

Section: Emr Results Based On Subjects' Feedbacksupporting

confidence: 92%

Stress classification based on human electromagnetic radiation analysis

Akmal

Talib

Jalil

et al. 2021

IJEECS

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<p>Stress is a feeling of emotional or physical tension due to any events that makes one feel frustrated, angry or nervous. It a situation that trigger particular biological response when encounter a threat or challenge. This paper discussed stress classification based on human electromagnetic radiation (EMR). At first, the collected radiation frequency data is analyzed using multivariate analysis of variance (MANOVA) to identify the significance points for the classification. Then, the data is classified using locally weighted learning (LWL) algorithm. The results show stress classification using EMR based on third eye and throat chakra points obtained accuracy of more than 60%.</p>

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Section: Emr Results Based On Subjects' Feedbacksupporting

confidence: 92%

Stress classification based on human electromagnetic radiation analysis

Akmal

Talib

Jalil

et al. 2021

IJEECS

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Measuring circular vection speed in a virtual reality headset

Kirollos

Herdman

2021

Displays

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Visual capture of gait during redirected walking

Rothacher

Nguyen

Lenggenhager

et al. 2018

Sci Rep

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Redirected walking allows users of virtual reality applications to explore virtual environments larger than the available physical space. This is achieved by manipulating users’ walking trajectories through visual rotation of the virtual surroundings, without users noticing this manipulation. Apart from its applied relevance, redirected walking is an attractive paradigm to investigate human perception and locomotion. An important yet unsolved question concerns individual differences in the ability to detect redirection. Addressing this question, we administered several perceptual-cognitive tasks to healthy participants, whose thresholds of detecting redirection in a virtual environment were also determined. We report relations between individual thresholds and measures of multisensory weighting (visually-assisted postural stability (Romberg quotient), subjective visual vertical (rod-and-frame test) and illusory self-motion (vection)). The performance in the rod-and-frame test, a classical measure of visual dependency regarding postural information, showed the strongest relation to redirection detection thresholds: The higher the visual dependency, the higher the detection threshold. This supports the interpretation of users’ neglect of redirection manipulations as a “visual capture of gait”. We discuss how future interdisciplinary studies, merging the fields of virtual reality and psychology, may help improving virtual reality applications and simultaneously deepen our understanding of how humans process multisensory conflicts during locomotion.

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The effect of gender on vection perception and postural responses induced by immersive virtual rotation drum

Cited by 5 publications

References 15 publications

Stress classification based on human electromagnetic radiation analysis

Stress classification based on human electromagnetic radiation analysis

Measuring circular vection speed in a virtual reality headset

Visual capture of gait during redirected walking

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