研究生: |
黃嘉君 Chia-Chun Huang |
---|---|
論文名稱: |
動態環境中閱讀之動暈與行動因應 Action and Motion Sickness While Reading in Dynamic Environments |
指導教授: |
楊梓楣
Yang, Chih-Mei |
學位類別: |
博士 Doctor |
系所名稱: |
體育學系 Department of Physical Education |
論文出版年: | 2013 |
畢業學年度: | 101 |
語文別: | 中文 |
論文頁數: | 117 |
中文關鍵詞: | 姿勢控制 、身體擺動 、生態心理學 、姿勢不穩定理論 、動暈易感性 |
英文關鍵詞: | postural control, body sway, ecological psychology, postural instability theory, motion sickness susceptibility |
論文種類: | 學術論文 |
相關次數: | 點閱:244 下載:10 |
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姿勢控制是個體-環境系統中,知覺-行動配連的作為,藉身體擺動產生的視覺與機械本體覺訊息,控制姿勢穩定。基於生態觀點,Riccio and Stoffregen (1991) 提出姿勢不穩定理論,認為姿勢不穩定是動暈發生的原因。本研究針對搭乘交通器閱讀容易動暈之議題,探討個體於動態環境中閱讀時的姿勢控制與動暈。本研究招募高與低動暈易感者各30名為參與者,並以移動室與移動表面操弄視覺與機械本體覺訊息,分為3種動態環境組別:外增視覺移動組、支撐面移動組、與座艙模擬組。參與者在實驗中處於靜態與動態環境,進行自然坐姿或坐姿閱讀工作。實驗中擷取並記錄個體的頭部與軀幹移動、移動室移動等資料,進一步分析身體擺動、頸部控制、以及人-環境配連等變項。研究結果顯示,閱讀時頭部擺動之左右變異會增加,有11% 至 40% 高動暈易感者曝露於動態環境後發生動暈,但低動暈易感者皆未產生動暈。座艙模擬環境下,身體擺動最大,其次為支撐面移動,而視覺移動情境則有較小的身體擺動。各環境與閱讀情境之動暈發生率皆相同,在閱讀試作中產生動暈者,身體擺動在試作後期高於未動暈之低動暈易感者,支持姿勢不穩定理論。
Postural control is an act resulting from perception-action coupling in the individual- environment system. People control their posture by picking up visual and mechanical proprioception information that is generated from body sway. Based on Ecological Psychology perspective, Riccio and Stoffregen (1991) proposed postural instability theory and regarded postural instability as the major factor of motion sickness. This study aimed at the issue of motion sickness while reading in transportations. Postural control and motion sickness were investigated while reading in dynamical environments. Thirty adults with higher motion sickness susceptibility (MSS) and thirty with lower MSS were recruited as participants. Moving room and moving surface were used to manipulate the visual and mechanical proprioception information. Three dynamic environment groups were: 1) imposed visual motion group; 2) moving support surface group; and 3) cabin simulation group. Participants sat only or read simultaneously in static and dynamic environments. Motions of participants’ head and trunk, as well as that of moving room were collected. Motion data was analyzed to verify the variables of body sway, neck control, and individual-environment coupling. The findings showed that head motion variability in ML-axis would increase as individual read. After exposure to dynamic environments, motion sickness was found by 11% - 40% of higher MSS individuals, but was not found by any lower MSS indiviual. The largest body sway was observed in cabin simulation, then in moving support surface, and the smallest one was in imposed visual motion environment. The motion sickness incidence did not differ among environments and reading conditions. Higher body sway was found in participants who reported motion sickness after reading compared to those who did not. The findings in this study confirmed postural instability theory.
楊梓楣、卓俊伶(1998)。接球動作型式的環境限制變項探討。體育學報,25,269-278。
黃嘉君、楊梓楣(2011)。明眼者與盲者對器物可伸取性的知覺與姿勢控制。中華心理學刊,53,21-34。
黃嘉君、楊梓楣(2012)。不穩定視覺環境之閱讀姿勢控制。大專體育學刊,14,161-169。
黃嘉君、楊梓楣(準備中)。站立閱讀姿勢控制之視覺訊息與支撐面。
潘玉文、張智惠(2011)。電玩遊戲引致成人身體擺盪與動暈症。大專體育學刊,13,232-240。
劉紋岑、楊梓楣(2011)。視覺焦點遠近與週邊視覺光流對知覺歷程身體擺動的影響。臺灣運動心理學刊,17,17-29。
Bardy, B. G., Oullier, O., Bootsma, R. J., & Stoffregen, T. A. (2002). Dynamics of human postural transitions. Journal of Experimental Psychology: Human Perception and Performance, 28, 499-541.
Bonnet, C. T., Faugloire, E., Riley, M. A., Bardy, B. G., & Stoffregen, T. A. (2006). Motion sickness preceded by unstable displacements of the center of pressure. Human Movement Science, 25, 800-820.
Bonnet, C. T., Faugloire, E., Riley, M. A., Bardy, B. G., & Stoffregen, T. A. (2008). Self-induced motion sickness and body movement during passive restraint. Ecological Psychology, 20, 121-145.
Cohen. J. (1988). Statistical power analysis for the behavioral sciences (2nd ed.). Hillsdale, NJ: Lawrence Erlbaum.
Campos, J. J., Anderson, D. I., Barbu-Roth, M. A., Hubbard, E. M., Hertenstein, M. J., & Witherington, D. (2000). Travel broadens the mind. Infancy, 1, 149-219.
Chang, C.-H., Pan, W.-W., Tseng, L.-Y., & Stoffregen, T. A. (2012). Postural activity and motion sickness during video game play in children and adults. Experimental Brain Research, 217, 299-309.
Day, B. L., Steiger, M. J., Thompson, P. D., & Marsden, C. D. (1993). Effects of vision and stance width on human body motion when standing: Implications for afferent control of lateral sway. Journal of Physiology, 469, 479-499.
Dichgans, J., & Brandt, T. (1973). Optokinetic motion sickness and pseudo-coriolis effects induced by moving visual stimuli. Acta Otolaryngal, 76, 339-348
Dijkstra, T. M. H., Gielen, C. C. A. M., & Melis, B. J. M. (1992). Postural responses to stationary and moving scenes as a function of distance to the scene. Human Movement Science, 11, 195-203.
Dong, X., Yoshida, K., & Stoffregen, T. A. (2011). Control of a virtual vehicle influences postural activity and motion sickness. Journal of Experimental Psychology: Applied, 17, 128-138.
Draper, M. H., Viirre, E. S., Gawron, V. J., & Furness, T. A. (2001). The effects of image scale and system delay on simulator sickness within head-coupled virtual environments. Human Factors, 43, 129-146.
De Nunzio, A. M., Nardone, A., & Schieppati, M. (2005). Head stabilization on a continuously oscillating platform: The effect of a proprioceptive disturbance on the balancing strategy. Experimental Brain Research, 165, 261-22.
Edwards, A. S. (1946). Body sway and vision. Journal of Experimental Psychology, 36, 526-535.
Faugloire, E., Bonnet, C. T., Riley, M. A., Bardy, B. G., & Stoffregen, T. A. (2007). Motion sickness, body movement, and claustrophobia during passive restraint. Experimental Brain Research, 177, 520-532.
Freedman, E. G., & Sparks, D. L. (2000). Coordination of the eyes and head: movement kinematics. Experiment Brain Research, 131, 22-32.
Flanagan, M. B., May, J. G., & Dobie, T. G. (2004). The role of vection, eye movements and postural instability in the etiology of motion sickness. Journal of Vestibular Research, 14, 335-346.
Gibson, J. J. (1966). The senses considered as perceptual systems. Boston, MA: Houghton Mifflin.
Gibson, J. J. (1986). The ecological approach to visual perception. Hillsdale, NJ: Lawrence Erlbaum Associates. (Original work published 1979)
Giveans, M. R., Yoshida, K., Bardy, B., Riley, M. & Stoffregen, T. A. (2011). Postural sway and the amplitude of horizontal eye movements. Ecological Psychology, 23, 247-266.
Golding, J. F. (1998). Motion sickness susceptibility questionnaire revised and its relationship to other forms of sickness. Brain Research Bulletin, 47, 507-516.
Golding, J. F. (2006a). Motion sickness susceptibility. Autonomic Neuroscience: Basic and Clinical, 129, 67-76.
Golding, J. F. (2006b). Predicting individual differences in motion sickness susceptibility by questionnaire. Personality and Individual Differences, 41, 237-248.
Griffin, M. J., & Howarth, H. V. C. (2000). Motion sickness history questionnaire. Institute of Sound and Vibration Research, University of Southampton, England, ISVR Technical Report 283.
Kennedy, R., Lane, N. E., Berbaum, K. S., & Lilienthal, M. G. (1993). Simulator sickness questionnaire: An enhanced method for quantifying simulator sickness. International Journal of Aviation Psychology, 3, 203-220.
Lee, C. (1999). Eye and head coordination in reading: Roles of head movement and cognitive control. Vision Research, 39, 3761-3768.
Lee, D. M., & Aronson, E. (1974). Visual proprioceptive control of standing in human infants. Perception & Psychophysics, 15, 529-532.
Lee, D. M., & Lishman, J. R. (1975). Visual proprioceptive control of stance. Journal of Human Movement Studies, 1, 87-95.
Mark, L. S., Balliet, J. A., Craver, K. D., Douglas, S. D., & Fox, T. (1990). What an actor must do in order to perceive the affordance for sitting. Ecological Psychology, 2, 325-366.
Merhi, O., Faugloire, E., Flanagan, M., & Stoffregen, T. A. (2007). Motion sickness, console video games, and head mounted displays. Human Factors, 49, 920-934.
Michaels, C. F., & Carello, C. (1981). Direct perception. Englewood Cliffs, NJ: Prentice-Hall.
Mizuno, Y., Shindo, M., Kuno, S., Kawakita, T., & Watanabe, S. (2001). Postural control responses sitting on unstable board during visual stimulation. Acta Astronautica, 49, 131-136.
Nashner, L. M., & McCollum, G. (1985). The organization of postural movements: A formal basis and experimental synthesis. Behavioral and Brain Sciences, 8, 135-172.
Newell‚ K. M. (1986). Constraints on the development of coordination. In M. G. Wade & H. T. A. Whiting (Eds.)‚ Motor development in children: Aspects of coordination and control (pp. 341-360). Boston, MA: Martinus Nijhoff.
Oudejans, R. R. D., Michaels, C. F., Bakker, F. C., & Dolné, M. A. (1996). The relevance of action in perceiving affordances: Perception of catchableness of fly balls. Journal of Experimental Psychology: Human Perception and Performance, 22, 879-891.
Oullier, O., Bardy, B. G., Stoffregen, T. A., & Bootsma, R. J. (2002). Postural coordination in looking and tracking tasks. Human Movement Science, 21, 147-167.
Oullier, O., Bardy, B. G., Stoffregen, T. A., & Bootsma, R. J. (2004). Task-specific stabilization of postural coordination during stance on a beam. Motor Control, 8, 174-187.
Owen, N., Leadbetter, A. G., & Yardley, L. (1998). Relationship between postural control and motion sickness in healthy subjects. Brain Research Bulletin, 47, 471-474.
Proudlock, F. A., Shekhar, H., & Gottlob, I. (2003). Coordination of eye and head movements during reading. Investigative Ophthalmology & Visual Science, 44, 2991-2998.
Reason, J. T. (1978). Motion sickness adaptation: A neural mismatch model. Journal of the Royal Society of Medicine, 71, 819-829.
Reason, J. T., & Brand, J. J. (1975). Motion sickness. London, England: Academic.
Riccio, G. E., & Stoffregen, T. A. (1988). Affordances as constraints on the control of stance. Human Movement Science, 7, 265-300.
Riccio, G. E., & Stoffregen, T. A. (1991). An ecological theory of motion sickness and postural instability. Ecological Psychology, 3, 195-240.
Rolnick, A., & Lubow, R. E. (1991). Why is the driver rarely motion sick? The role of controllability in motion sickness. Ergonomics, 34, 867-879.
Smart, L. J., Pagulayan, R., & Stoffregen, T. A. (1998). Self-induced motion sickness in unperturbed stance. Brain Research Bulletin, 47, 449-457.
Smart, L. J., Stoffregen, T. A., & Bardy, B. G. (2002). Visually induced motion sickness predicted by postural instability. Human Factors, 44, 451-465.
Stoffregen, T. A. (1985). Flow structure versus retinal location in the optical control of stance. Journal of Experimental Psychology: Human Perception and Performance, 11, 554-565.
Stoffregen, T. A. (2000). Affordance and events. Ecological Psychology, 12, 1-28.
Stoffregen, T. A., & Riccio, G. E. (1990). Responses to optical looming in the retinal center and periphery. Ecological Psychology, 2, 251-274.
Stoffregen, T. A., & Smart, L. J. (1998). Postural instability precedes motion sickness. Brain Research Bulletin, 47, 437-448.
Stoffregen, T. A., Bardy, B. G., Bonnet, C. T., Hove, P., & Oullier, O. (2007). Postural sway and the frequency of horizontal eye movements. Motor Control, 11, 86-102.
Stoffregen, T. A., Bardy, B. G., Merhi, O., & Oullier, O. (2004). Postural responses to two technologies for generating optical flow. Presence, 13, 601-615.
Stoffregen, T. A., Faugloire, E., Yoshida, K., Flanagan, M. B., & Merhi, O. (2008). Motion sickness and postural sway in console video games. Human Factors, 50, 322-331.
Stoffregen, T. A., Hettinger, L. J., Haas, M. W., Roe, M. M., & Smart, L. J. (2000). Postural instability and motion sickness in a fixed-base flight simulator. Human Factors, 42, 458-469.
Stoffregen, T. A., Hove, P., Bardy, B. G., Riley, M., & Bonnet, C. T. (2007). Postural stabilization of perceptual but not cognitive performance. Journal of Motor Behavior, 39, 126-138.
Stoffregen, T. A., Hove, P., Schmit, J., & Bardy, B. G. (2006). Voluntary and involuntary postural responses to imposed optic flow. Motor Control, 10, 24-33.
Stoffregen, T. A., Pagulayan, R. J., Bardy, B. G., & Hettinger, L. J. (2000). Modulating postural control to facilitate visual performance. Human Movement Science, 19, 203-220
Stoffregen, T. A., Smart, L. J., Bardy, B. G., & Pagulayan, R. J. (1999). Postural stabilization of looking. Journal of Experimental Psychology: Human Perception and Performance, 25, 1641-1658
Stoffregen, T. A., Yang, C. M., & Bardy, B. G. (2005). Affordance judgments and nonlocomotor body movement. Ecological Psychology, 17, 75-104.
Stoffregen, T. A., Yoshida, K., Villard, S., Scibora, L., & Bardy, B. G. (2010). Stance width influences postural stability and motion sickness. Ecological Psychology, 22, 169-191.
Streepey, J. W., Kenyon, R. V., & Keshner, E. A. (2007a). Field of view and base of support width influence postural responses to visual stimuli during quiet stance. Gait & Posture, 25, 49-55.
Streepey, J. W., Kenyon, R. V., & Keshner, E. A. (2007b). Visual motion combined with base of support width reveals variable field dependency in healthy young adults. Experimental Brain Research, 176, 182-187.
Turner, M., & Griffin, M. J. (1999a). Motion sickness in public road transport: Passenger behaviour and susceptibility. Ergonomics, 42, 444-461.
Turner, M., & Griffin, M. J. (1999b). Motion sickness in public road transport: The relative importance of motion, vision and individual differences. British Journal of Psychology, 90, 519-530.
Villard, S. J., Flanagan, M. B., Albanese, G. M., & Stoffregen, T. A. (2008). Postural instability and motion sickness in a virtual moving room. Human Factors, 50, 332-345.
Yokota, Y., Aoki, M., Mizuta, K., Ito, Y., & Isu, N. (2005). Motion sickness susceptibility associated with visually induced postural instability and cardiac autonomic responses in healthy subjects. Acta Oto-Laryngologica, 125, 280-285.