行動裝置操作引致之姿勢因應與動暈：檢證協調架構、認知負荷與動作複雜度效應_

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題名：	行動裝置操作引致之姿勢因應與動暈：檢證協調架構、認知負荷與動作複雜度效應
作者：	施長志
作者(外文)：	Shih, Chang-Chih
校院名稱：	國立臺灣師範大學
系所名稱：	體育學系
指導教授：	楊梓楣卓俊伶
學位類別：	博士
出版日期：	2020
主題關鍵詞：	生態心理學；姿勢不穩定理論；超姿勢任務；移動室；Ecological psychology；postural instability theory；supra-postural task；moving room
原始連結：	連回原系統網址
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超姿勢任務意指個體必須在維持穩定姿勢的狀態下執行其他任務，在動態環境下保持平衡或增加超姿勢任務之負荷時，可能造成姿勢不穩定甚至是動暈；行動裝置日益普及，本研究基於姿勢不穩定理論，設計三個實驗，旨在探究個體在模擬交通運輸情境，操作智慧型手機，以手寫輸入法執行任務時之姿勢控制與動暈現象；實驗一，12名參與者在動態車廂模擬情境下進行以下任務：保持平衡以及使用慣用手與非慣用手執行漢字楷書書寫任務；實驗二，48名參與者被隨機分派至由操作手與兩認知負荷水準所交雜而成的四個組別中，執行草書臨寫任務；實驗三，48名參與者被隨機分派至由操作手與字形繁簡所組構之四個組別當中，執行草書描紅任務；實驗前、後，參與者必須填寫虛擬情境動暈問卷，在實驗試作中則使用磁力追蹤儀收集參與者的肢段位置資料，以計算身體擺動與標記點間的交叉相關係數；研究結果顯示，執行各種超姿勢任務時，個體展現不同的動作型式；本研究的結論是操作手、認知負荷與動作複雜度因子並非造成動暈的主因，但會影響身體的姿勢控制，動暈者與非動暈者的姿勢控制略有不同。

以文找文

Supra-postural task implies that the organism has to perform other tasks while maintaining a stable posture. Keeping balance in a dynamical environment or increasing load to supra-postural tasks may induce posture instability and even motion sickness. Mobile devices become more and more popular nowadays. In this study, based on the postural instability theory, three experiments were designed. The aim of this study was to find out the posture control and motion sickness phenomenon while individuals used the handwriting input method to perform various tasks with a smartphone under the imitated transportation conditions. In experiment 1, twelve participants had to perform the following tasks under dynamic carriage simulations: Keeping balance and performing a Chinses standard writing task with dominant and non-dominant hands. In experiment 2, forty-eight participants were randomly assigned into four groups that were constructed by writing hands and two levels of cognition load to perform the cursive-writing copying tasks. For experiment 3, forty-eight participants were randomly assigned to the four groups that were constituted by the writing hands and complexity of the characters to perform the cursive writing copy task (covering the strokes of the sample characters). Participants have to fill out the simulator sickness questionnaire (SSQ) before and after the experiment. The position data of the specific segments were collected by the magnetic tracking system during the trials to calculate the body sway and the cross-correlation coefficients among the target markers. Results revealed that different movement patterns were found in various supra-postural tasks. The conclusions of the current study were that writing hand, cognition load and movement complexity were not the main reason that caused motion sickness. However, these factors affected the control of body posture. Few differences were found in posture control between people who were motion sickness and who were not.

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孔維靖、張智惠 (2013)。視引發動暈：觀看 3D 電影之身體擺動與動暈。大專體育學刊，15(2)，160-168。
江勁政、江勁彥、相子元 (2004)。體操選手與非運動員平衡能力之定量評估。大專體育學刊，6(1)，203-212。
施長志、楊梓楣、卓俊伶 (2017)。書寫研究典範之回顧與認定：工作任務與測量取向。台灣運動心理學報，17(2)，69-91。
曾韋中、潘玉文、張智惠 (2014)。以文獻回顧探討實際駕駛經驗與年齡對動暈模擬器的影響。臺灣運動心理學報，14(1)，35-49。
黃嘉君 (2013)。動態環境中閱讀之動暈與行動因應 (未出版博士論文)。國立臺灣師範大學，臺北市。
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(2)，161-169。
黃嘉君、楊梓楣 (2019)。動態環境中視覺搜尋工作之動暈與姿勢控制。體育學報，52(1)，39-54。
劉紋岑、楊梓楣 (2010)。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。臺灣運動心理學報，17，17-29。
楊梓楣、黃嘉君、施長志、黃嘉笙 (2016)。平衡因應行為的年齡差異：以知覺–行動配連觀點檢證移動室情境之視覺光流操弄效果。體育學報，49(4)，403-414。
楊梓楣、黃嘉笙、黃嘉君、黃嘉彬、湯鳴遠、施長志 (2018)。動靜態環境中支撐器對單足站立姿勢控制的效應。大專體育學刊，20(1)，1-15。
楊梓楣、黃嘉君、黃嘉笙、郭丁良 (2011)。從身體擺動審視個體–環境系統之直接知覺機制：以移動室操弄視覺光流訊息。體育學報，44(1)，57-72。
楊梓楣、黃嘉君、黃嘉笙、劉紋岑 (2016)。以年齡橫斷檢證覺知視覺環境紋理過程中之身體擺動。臺灣運動心理學報，16(1)，1-16。
楊梓楣、湯鳴遠、黃嘉笙、施長志 (2015)。專項運動訓練對動暈效應與姿勢控制的效應。大專體育學刊，17(4)，414-428。
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(3)，232-240。
Annett, M. (2009). Patterns of hand preference for pairs of actions and the classification of handedness. British Journal of Psychology, 100, 491-500.
Arutyunyan, G. H., Gurfinkel, V. S., & Mirskii, M. L. (1969). Organisation of movements on execution by man of an exact postural task. Biophysics, 14, 1162-1167.
Balasubramaniam, & Turvey, M. T. (2000). The handedness of postural fluctuations. Human Movement Science, 19, 667-684.
Balasubramaniam, R., Riley, M., & Turvey, M. T. (2000). Specifictty of postural sway to the demands of a precision task. Gait and Posture, 11,12-24.
Ball, K. A., Best, R. J., & Wrigley, T. V. (2003a). Body sway, aim point fluctuation and performance in rifle shooters: Inter- and intra-individual analysis. Journal of Sports Sciences, 21, 559-566.
Ball, K. A., Best, R. J., & Wrigley, T. V. (2003b). Inter- and intra-individual analysis in elite sport: Pistol shooting. Journal of Applied Biomechanics, 19, 28-38.
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.
Bernstein, N. (1967). The co-ordination and regulation of movements. Oxford: Pergamon Press.
Bonnet, C. T., Faugloire, E. M., 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.
Byington, K. W., & Schwebel, D. C. (2013). Effects of mobile Internet use on college student pedestrian injury risk. Accident Analysis and Prevention, 51, 78-83.
Coren, S. (1992). Handedness questionnaire. Adapted from S. Coren (Ed.), The left-hander syndrome: The causes and consequences of left-handedness. Retrieved November 28, 2016, from Neuroscience for Kids Web site: http://faculty.washington.edu/chudler/rltablen.html
Dault, M. C., Frank, J. S., & Allard, F. (2001). Influence of a visuo-spatial, verbal and central executive working memory task on postural control. Gait and Posture, 14, 110-116.
Dault, M. C., Geurts, A. C., Mulder, T. W., & Duysens, J. (2001). Postural control and cognitive task performance in healthy participants while balancing on different support-surface configurations. Gait and Posture, 14, 248-255.
Dault, M. C., Yardley, L., & Frank, J. S. (2003). Does articulation contribute to modifications of postural control during dual-task paradigms? Cognitive Brain Research, 16, 434-440.
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, 261-272.
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.
Edwards, A. S. (1946). Body sway and vision. Journal of Experimental Psychology, 36, 526-535.
Era, P., Konttinen, N., Mehto, P., Saarela, P., & Lyytinen, H. (1996). Postural stability and skilled performance - A study on top-level and naive rifle shooters. Journal of Biomechanics, 29, 301-306.
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.
Fitts, P. M., & Peterson, J. R. (1964). Information capacity of discrete motor responses. Journal of Experimental Psychology, 67, 103-112.
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 sense 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)
Golding, J. F. (2006). Predicting individual differences in motion sickness susceptibility by questionnaire. Personality and Individual Differences, 41, 237-248.
Hart, S. G. (2006). NASA-task load index (NASA-TLX); 20 years later. In Proceedings of the human factors and ergonomics society annual meeting (pp. 904-908). Santa Monica, CA: Human Factors & Ergonomics Society.
Hart, S. G., & Staveland, L. E. (1988). Development of NASA-TLX (Task Load Index): Results of empirical and theoretical research. In P. A. Hancock & N. Meshkati (Eds.), Human mental workload (pp. 139-183). Oxford, UK: North-Holland.
Hawkins, R. (2011). Identifying mechanic measures that best predict air-pistol shooting performance. International Journal of Performance Analysis in Sport, 11, 499-509.
Hawkins, R. N., & Sefton, J. M. (2011). Effects of stance width on performance and postural stability in national-standard pistol shooters. Journal of Sports Sciences, 29, 1381-1387.
Huang, C. C., & Yang, C. M. (2016). Visual information and support surface for postural control in visual search task. Perceptual and Motor Skills, 123, 394-410.
Hunter, M. C., & Hoffman, M. A. (2001). Postural control: Visual and cognitive manipulations. Gait and Posture, 13, 41-48.
Huxhold, O., Li, S. C., Schmiedek, F., & Lindenberger, U. (2006). Dual-tasking postural control: Aging and the effects of cognitive demand in conjunction with focus of attention. Brain Research Bulletin, 69, 294-305.
Isotalo, E., Kapoula, Z., Feret, P. H., Gauchon, K., Zamfirescu, F., & Gagey, P. M. (2004). Monocular versus binocular vision in postural control. Auris Nasus Larynx, 31, 11-17.
Johnson, D. M. (2007). Simulator sickness research summary. Ft. Rucker, AL: U.S. Army Research Institute for Behavioral and Social Sciences.
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, 203-220.
Koslucher, F., Haaland, E., & Stoffregen, T. A. (2016). Sex differences in visual performance and postural sway precede sex differences in visually induced motion sickness. Experimental Brain Research, 234, 313-322.
Kugler, P. N., Kelso, J. A. S., & Turvey, M. T. (1980). On the concept of coordinative structures as a dissipative structure: 1. Theoretical lines of convergence. In G. E. Stelmach & J. Requin (Eds.), Tutorials in motor behavior (pp. 3-47). Amsterdam: North-Holland.
Lê, T. T., & Kapoula, Z. (2006). Distance impairs postural stability only under binocular viewing. Vision Research, 46, 3586-3593.
Lee, C. (1999). Eye and head coordination in reading: Roles of head movement and cognitive control. Vision Research, 39, 3761-3768.
Lee, D. N., & Aronson, E. (1974). Visual proprioceptive control of standing in human infants. Perception and Psychophysics, 15, 529-532.
Lee, D. N., & Lishman, J. R. (1975). Visual proprioceptive control of stance. Journal of Human Movement Studies, 1, 87-95.
Lee, D. N., & Lishman, J. R. (1977). Vision - The most efficient source of proprioceptive information for balance control. Agressologie, 18, 83-94.
Lorenz. E. D., (1963). Deterministic nonperiodic flow. Journal of the Atmospheric Sciences, 20, 130-141.
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.
McNevin, N. H., & Wulf, G. (2002). Attentional focus on supra-postural tasks affects postural control. Human Movement Science, 21, 187-202.
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.
Nasar, J. L., & Troyer, D. (2013). Pedestrian injuries due to mobile phone use in public places. Accident Analysis and Prevention, 57, 91-95.
Newell, K. M. (1985). Coordination, control and skill. In D. Goodman, R. B. Wilberg, & I. M. Franks (Eds.), Differing perspectives in motor learning, memory, and control (pp. 295-317). Amsterdam: Elsevier.
Newell, K. M., & Corcos, D. M. (1993). Variability and motor control. Champaign, IL: Human Kinetics.
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.
Newell, K. M., & Slifkin, A. B. (1998). The nature of movement variability. In J. P. Piek (Ed.), Motor behavior and human skill (pp. 143-160). Champaign, IL: Human Kinetics.
Newell, K. M., & van Emmerik, R. E. A. (1989). The acquisition of coordination: Preliminary analysis of learning to write. Human Movement Science, 8, 17-32.
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, 7, 174-187.
Reason, J. T. (1978). Motion sickness adaptation: A neural mismatch model. Journal of the Royal Society of Medicine, 71, 819-829.
Rigal, R. A. (1992). Which handedness: Preference or performance? Perceptual and Motor Skills, 75, 851-866.
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.
Schwebel, D. C., Stavrinos, D., Byington, K. W., Davis, T., O’Neal, E. E., & De Jong, D. (2012). Distraction and pedestrian safety: How talking on the phone, texting, and listening to music impact crossing the street. Accident Analysis and Prevention, 45, 266-271.
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 and 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.
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., 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., Chen, Y. C., & Koslucher, F. C. (2014). Motion control, motion sickness, and the postural dynamics of mobile devices. Experimental Brain Research, 232, 1389-1397.
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., Schmit, J., & Bardy, B. G. (2006). Voluntary and involuntary postural responses to imposed optic flow. Motor Control, 10, 24-33.
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., 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. (1998). Postural instability precedes motion sickness. Brain Research Bulletin, 47, 437-448.
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., Yoshida, K., Villard, S., Scibora, L., & Bardy, B. G. (2010). Stance width influences postural stability and motion sickness. Ecological Psychology, 22, 169-191.
Sweller, J., van Merrienboer, J. J. G., & Paas, F. G. W. C. (1998). Cognitive architecture and instructional design. Educational Psychology Review, 10, 251- 296.
Thomas, J. R., Nelson, J. K., & Silverman, S. J. (2011). Research methods in physical activity (6th ed.). Champaign, IL: Human Kinetics.
van Emmerik, R. E. A., & Newell, K. M. (1990). The influence of task and organismic constraints on intralimb and pen-point kinematics in a drawing task. Acta Psychologica, 73, 171-190.
Varlet, M., Bardy, B. G., Chen, F. C., Alcantara, C., & Stoffregen, T. A. (2015). Coupling posture of posture activity with motion of a ship at sea. Experimental Brain Research, 233, 1607-1616.
Walter, H. J., Li, R., Munato, J., Curry, C., Peterson, N., & Stoffregen, T. A. (2019). Unstable coupling of body sway with imposed motion precedes visually induced motion sickness. Human Movement Science, 64, 389-397.
Warren, W. H. (1984). Perceiving affordances: Visual guidance of stair climbing. Journal of Experimental Psychology: Human Perception and Performance, 10, 683-703.
Williams, A. M., Davis, K., & Williams, J. G. (1999). Visual perception and action in sport. New York: E & FN Spon.
Wulf, G., Mercer, J., McNevin, N. H., & Guadagnoli, M. A. (2004). Reciprocal influences of attentional focus on postural and supra-postural task performance. Journal of Motor Behaviour, 36, 189-199.

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