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NTIS 바로가기감성과학 = Science of emotion & sensibility, v.26 no.4, 2023년, pp.103 - 114
오지영 (고려대학교 심리학부(행동인지신경과학전공)) , 진민성 (고려대학교 심리학부(행동인지신경과학전공)) , 박시온 (고려대학교 심리학부(행동인지신경과학전공)) , 송세윤 (고려대학교 심리학부(행동인지신경과학전공)) , 전수빈 (고려대학교 심리학부(행동인지신경과학전공)) , 이유정 (고려대학교 심리학부) , 신혜지 (고려대학교 심리학부(행동인지신경과학전공)) , 김채연 (고려대학교 심리학부)
Augmented reality (AR) and virtual reality (VR) differ fundamentally, with AR overlaying computer-generated information onto the real world in a nonimmersive way. Despite extensive research on cybersickness in VR, its occurrence in AR has received less attention (Vovk et al., 2018). This study exami...
Ames, S. L., Wolffsohn, J. S., & Mcbrien, N. A. (2005).?The development of a symptom questionnaire for?assessing virtual reality viewing using a head-mounted display. Optometry and Vision Science,?82(3), 168-176.
Brainard, D. H., & Vision, S. (1997). The psychophysics?toolbox. Spatial Vision, 10(4), 433-436.
Chang, E., Kim, H. T., & Yoo, B. (2020). Virtual reality?sickness: A review of causes and measurements.?International Journal of Human-Computer Interaction,?36(17), 1658-1682.
Choi, S., Lee, W., Kim, H., Won, J., Lee, J., Lee, Y.,?& Kim, J. (2017). The effects of virtual competitiors?on AR (Augmented Reality) hom training system:?focusing on immersion, Perceived Competition, and?Learning Motivation. Science of Emotion and Sensibility,?20(3), 119-130.
Dargan, S., Bansal, S., Kumar, M., Mittal, A., & Kumar,?K. (2023). Augmented reality: a comprehensive?review. Archives of Computational Methods in?Engineering, 30(2), 1057-1080.
Golding, J. F. (1998). Motion sickness susceptibility?questionnaire revised and its relationship to other?forms of sickness. Brain Research Bulletin, 47(5),?507-516.
Golding, J. F., Rafiq, A., & Keshavarz, B. (2021).?Predicting individual susceptibility to visually?induced motion sickness by questionnaire. Frontiers?in Virtual Reality, 2, 576871.
Holmes, N. P. (2009). The principle of inverse effectiveness?in multisensory integration: some statistical considerations.?Brain Topography, 21, 168-176.
Hughes, C. L., Fidopiastis, C., Stanney, K. M., Bailey,?P. S., & Ruiz, E. (2020). The psychometrics of?cybersickness in augmented reality. Frontiers in?Virtual Reality, 1, 602954.
Jang, K. M., Kwon, M., Nam, S. G., Kim, D., & Lim, H.?K. (2022). Estimating objective (EEG) and subjective?(SSQ) cybersickness in people with susceptibility to?motion sickness. Applied Ergonomics, 102, 103731.
Jeon, H., Chang, E., Wendimagegn, T. W., Park, C. H.,?Jeong, J. W., & Kim, H. T. (2015). Deveolpment?of vestibulo-ocular reflex measurement system for?the study of cybersickness. Science of Emotion and?Sensibility, 18(1), 27-38
Kracauer, S. (1997). Theory of film: The redemption of?physical reality. Princeton University Press.
Kennedy, R. S., Lane, N. E., Berbaum, K. S., &?Lilienthal, M. G. (1993). Simulator sickness?questionnaire: An enhanced method for quantifying?simulator sickness. The International Journal of?Aviation Psychology, 3(3), 203-220.
Kennedy, R. S., Stanney, K. M., & Dunlap, W. P. (2000).?Duration and exposure to virtual environments:?Sickness curves during and across sessions. Presence:?Teleoperators & Virtual Environments, 9(5), 463-472.
Kim, Y. M., Bahn, S., & Yun, M. H. (2021). Wearing?comfort and perceived heaviness of smart glasses.?Human Factors and Ergonomics in Manufacturing?& Service Industries, 31(5), 484-495.
Kim, Y. Y., Kim, H. J., Kim, E. N., Ko, H. D., & Kim, H.?T. (2005). Characteristic changes in the physiological?components of cybersickness. Psychophysiology,?42(5), 616-625.
Kim, Y., Kim, E., Ko, D., & Kim, H. (2003). The positive?effect of motion platform in virtual navigation.?Korean Journal of the Science of Emotion &?Sensibility, 6(1), 11-16.
Kong, H. I., & Han, K. H. (2019). The influence of food?image presentation on purchase intention with the?use of augmented reality: the mediation effect of?user engagement. Science of Emotion and?Sensibility, 22(3), 65-76.
Mazloumi Gavgani, A., Hodgson, D. M., & Nalivaiko,?E. (2017). Effects of visual flow direction on signs and?symptoms of cybersickness. PloS One, 12(8), e0182790.
Mazloumi Gavgani, A., Walker, F. R., Hodgson, D. M.,?& Nalivaiko, E. (2018). A comparative study of?cybersickness during exposure to virtual reality and?"classic" motion sickness: Are they different?.?Journal of Applied Physiology, 125(6), 1670-1680.
Meredith, M. A., & Stein, B. E. (1983). Interactions?among converging sensory inputs in the superior?colliculus. Science, 221(4608), 389-391.
Ma, J. Y., & Choi, J. S. (2007). The virtuality and reality?of augmented reality. Journal of Multimedia, 2(1),?32-37.
Mittelstaedt, J. M., Wacker, J., & Stelling, D. (2019).?VR aftereffect and the relation of cybersickness and?cognitive performance. Virtual Reality, 23, 143-154.
Pelli, D. G., & Vision, S. (1997). The VideoToolbox?software for visual psychophysics: Transforming?numbers into movies. Spatial Vision, 10, 437-442.
Prince, S. (1996). True lies: Perceptual realism, digital?images, and film theory.
Prinzmetal, W., McCool, C., & Park, S. (2005).?Attention: reaction time and accuracy reveal different?mechanisms. Journal of Experimental Psychology:?General, 134(1), 73.
Rebenitsch, L., & Owen, C. (2014, October). Individual?variation in susceptibility to cybersickness. In?Proceedings of the 27th annual ACM symposium on?User interface software and technology (pp. 309-317).
So, R. H., Ho, A., & Lo, W. T. (2001). A metric to?quantify virtual scene movement for the study of?cybersickness: Definition, implementation, and?verification. Presence, 10(2), 193-215.
So, R. H., Lo, W. T., & Ho, A. T. (2001). Effects of?navigation speed on motion sickness caused by an?immersive virtual environment. Human Factors, 43(3),?452-461.
Stanney, K. (1995, March). Realizing the full potential of?virtual reality: Human factors issues that could stand?in the way. In Proceedings Virtual Reality Annual?International Symposium'95 (pp. 28-34). IEEE.
Stanney, K. M., Hale, K. S., Nahmens, I., & Kennedy,?R. S. (2003). What to expect from immersive virtual?environment exposure: Influences of gender, body?mass index, and past experience. Human Factors,?45(3), 504-520.
Vovk, A., Wild, F., Guest, W., & Kuula, T. (2018, April).?Simulator sickness in augmented reality training?using the Microsoft HoloLens. In Proceedings of the?2018 CHI conference on human factors in computing?systems (pp. 1-9).
Weech, S., Kenny, S., & Barnett-Cowan, M. (2019). Presence?and cybersickness in virtual reality are negatively?related: A review. Frontiers in Psychology, 10, 158.
Witmer, B. G., Jerome, C. J., & Singer, M. J. (2005).?The factor structure of the presence questionnaire.?Presence: Teleoperators & Virtual Environments,?14(3), 298-312.
Zhou, C., Bryan, C. L., Wang, E., Artan, N. S., & Dong,?Z. (2019, November). Cognitive distraction to?improve cybersickness in virtual reality environment.?In 2019 IEEE 16th international conference on?mobile ad hoc and sensor systems workshops?(MASSW) (pp. 72-76). IEEE.
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