虛擬實境中風復健系統之指尖夾取運動的成效評估與運動分析

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姓名

陳玉琴(Yu-chin Chen) 查詢紙本館藏

畢業系所

資訊工程學系

論文名稱

虛擬實境中風復健系統之指尖夾取運動的成效評估與運動分析

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摘要(中)

隨著醫療進步，老年人口漸多，中風問題也日漸受重視。本研究針對虛擬實境中風復健系統，指尖夾取的復健部分，分析加入了力回饋在虛擬實境的復健系統中，指尖夾取的運動、系統的復健成效等等。
本研究分為健康受試者組與病人組，健康受試者主要分析腳本難易度對任務表現、運動指標會有何影響，以及任務表現、運動指標、問卷三者之間的相互關係。病人組主要分析復健次數對運動指標、任務表現、臨床評估會有何影響，以及運動指標、問卷、臨床評估之間的相互關係。
研究結果顯示，腳本難易度會對運動指標、任務表現有影響。復健次數對運動指標、任務表現、臨床評估也會有影響，復健前後病人是有部分進步的。運動指標與問卷回饋及臨床評估之間是有相關性的，只是在相關程度上有差別。

摘要(英)

With medical advances, an increasing elderly population, stroke, problems are increasingly valued. In this study, virtual reality stroke rehabilitation system, fingers gripping the rehabilitation part will analyzes joined the force feedback in virtual reality rehabilitation system, the finger gripping movement, the effectiveness of the system of rehabilitation .
In this study, subjects were divided into healthy groups and patient groups, healthy subjects main analysis difficulty script of the task implications of motion index performance. And the relationship between the task performance, the motion index, and the questionnaires. Patient group mainly analyzed the number of rehabilitation have any effect to moving targets, the task performance, and clinical assessment. And the relationship between motion index, questionnaires, clinical assessment.
The results show that, the difficulty level script will have impact on motion index, and the task performance. Number of rehabilitation will also influence motion index, task performance, and the clinical assessment, which rehabilitation before and after the patient is part of progress. Motion index and questionnaire feedback and clinical assessment is a correlation between, but there are differences in the degree of correlation.
Key word: haptic, rehabilitation, pinch, motion index

關鍵字(中)

★ 觸覺
★ 復健
★ 指尖夾取
★ 運動指標

關鍵字(英)

★ haptic
★ rehabilitation
★ pinch
★ motion index

論文目次

第一章緒論 1
1-1 研究背景與動機 1
1-2 研究目的 2
1-3 研究大綱 3
第二章文獻探討 6
2-1 虛擬實境與手部復健相關研究 6
2-2 力回饋儀器的應用 7
第三章研究方法 9
3-1 系統設計 9
3-1-1 系統架構 9
3-1-2 VR任務設計I：夾破任務 10
3-1-3 VR任務設計II：夾舉任務 11
3-1-4 力量模擬設計 12
3-1-5 人機介面設計 14
3-2 實驗對象 15
3-3 實驗步驟及流程 16
3-4 資料量測與分析 18
3-4-1 任務表現 18
3-4-2 運動指標 18
3-4-3 科技接受度 28
第四章結果分析與討論 29
4-1 健康受試者組 29
4-1-1 難易度對於運動指標的影響分析 29
4-1-2 難易度對於任務表現的影響分析 40
4-1-3 運動指標與任務表現相關性 43
4-1-4 問卷回饋 47
4-1-5 運動指標與問卷回饋相關性 48
4-1-6 任務表現與問卷回饋相關性 49
4-2 病人組 51
4-2-1 復健次數與運動指標分析 51
4-2-2 復健次數與任務表現分析 57
4-2-3 復健前後評估分數分析 59
4-2-4 運動指標與臨床評估相關性 61
4-2-5 問卷回饋 71
4-3 健康受試者組與病人組的運動分析比較 72
第五章結論 75
5-1 研究結果 75
5-2 未來建議 76
參考文獻 78

參考文獻

1. Feigin, V.L., et al., Stroke epidemiology: a review of population-based studies of incidence, prevalence, and case-fatality in the late 20th century. Lancet Neurol, 2003. 2(1): p. 43-53.
2. Hu, H.H., et al., Prevalence of stroke in Taiwan. Stroke, 1989. 20(7): p. 858-63.
3. Hu, H.H., et al., Incidence of stroke in Taiwan. Stroke, 1992. 23(9): p. 1237-41.
4. Buckley, J., J. Holmes, and G. Mapp, Exercise on Prescription: Cardiovascular Activity for Health. 1999: Butterworth-Heinemann.
5. Wozniak, M.A., et al., Stroke location is not associated with return to work after first ischemic stroke. Stroke, 1999. 30(12): p. 2568-73.
6. Vestling, M., B. Tufvesson, and S. Iwarsson, Indicators for return to work after stroke and the importance of work for subjective well-being and life satisfaction. J Rehabil Med, 2003. 35(3): p. 127-31.
7. Hofgren, C., et al., Recovery after stroke: cognition, ADL function and return to work. Acta Neurol Scand, 2007. 115(2): p. 73-80.
8. Annie Stuart, M.W.S., MD. Arm and Hand Exercises for Stroke Rehab. 2012 1,Jun1; Available from: http://www.webmd.com/stroke/features/arm-and-hand-exercises-for-stroke-rehab.
9. Woldag, H. and H. Hummelsheim, Evidence-based physiotherapeutic concepts for improving arm and hand function in stroke patients. Journal of Neurology, 2002. 249(5): p. 518-528.
10. Sunderland, A., et al., Enhanced physical therapy improves recovery of arm function after stroke. A randomised controlled trial. J Neurol Neurosurg Psychiatry, 1992. 55(7): p. 530-5.
11. Bütefisch, C., et al., Repetitive training of isolated movements improves the outcome of motor rehabilitation of the centrally paretic hand. Journal of the Neurological Sciences, 1995. 130(1): p. 59-68.
12. Werner, P., et al., Use of the virtual action planning supermarket for the diagnosis of mild cognitive impairment: a preliminary study. Dement Geriatr Cogn Disord, 2009. 27(4): p. 301-9.
13. Saposnik, G., et al., Effectiveness of virtual reality using Wii gaming technology in stroke rehabilitation: a pilot randomized clinical trial and proof of principle. Stroke, 2010. 41(7): p. 1477-84.
14. Davis, F.D., R.P. Bagozzi, and P.R. Warshaw, User Acceptance of Computer Technology: A Comparison of Two Theoretical Models. Management Science, 1989. 35(8): p. 982-1003.
15. Su, F.C., et al., Video-computer quantitative evaluation of thumb function using workspace of the thumb. J Biomech, 2003. 36(7): p. 937-42.
16. Zhibin, S., G. Shuxiang, and M. Yazid. Development of a potential system for upper limb rehabilitation training based on virtual reality. in Human System Interactions (HSI), 2011 4th International Conference on. 2011.
17. Zhang, D., et al. An Affordable Augmented Reality Based Rehabilitation System for Hand Motions. in Cyberworlds (CW), 2010 International Conference on. 2010.
18. Adamovich, S.V., et al., A Virtual Reality—Based Exercise System for Hand Rehabilitation Post-Stroke. Presence: Teleoperators and Virtual Environments, 2005. 14(2): p. 161-174.
19. Fischer, H., et al., Hand Rehabilitation Following Stroke: A Pilot Study of Assisted Finger Extension Training in a Virtual Environment. Topics in Stroke Rehabilitation, 2007. 14(1): p. 1-12.
20. Jin, S.A., Effects of 3D virtual haptics force feedback on brand personality perception: the mediating role of physical presence in advergames. Cyberpsychol Behav Soc Netw, 2010. 13(3): p. 307-11.
21. Atkinson, S.D. and V.L. Narasimhan. Design of an introductory medical gaming environment for diagnosis and management of Parkinson’s disease. in Trendz in Information Sciences & Computing (TISC), 2010. 2010.
22. Broeren, J., M. Rydmark, and K.S. Sunnerhagen, Virtual reality and haptics as a training device for movement rehabilitation after stroke: A single-case study1 1 No commercial party having a direct financial interest in the results of the research supporting this article has or will confer a benefit upon the authors(s) or upon any organization with which the author(s) is/are associated. Archives of physical medicine and rehabilitation, 2004. 85(8): p. 1247-1250.
23. Jack, D., et al., Virtual reality-enhanced stroke rehabilitation. Neural Systems and Rehabilitation Engineering, IEEE Transactions on, 2001. 9(3): p. 308-318.
24. Nam Gyun, K., Y. Choong Ki, and I. Jae Joong, A new rehabilitation training system for postural balance control using virtual reality technology. Rehabilitation Engineering, IEEE Transactions on, 1999. 7(4): p. 482-485.
25. Popescu, V.G., et al., A virtual-reality-based telerehabilitation system with force feedback. Information Technology in Biomedicine, IEEE Transactions on, 2000. 4(1): p. 45-51.
26. Allin, S., Y. Matsuoka, and R. Klatzky. Measuring just noticeable differences for haptic force feedback: implications for rehabilitation. in Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2002. HAPTICS 2002. Proceedings. 10th Symposium on. 2002.
27. Bardorfer, A., et al., Upper limb motion analysis using haptic interface. Mechatronics, IEEE/ASME Transactions on, 2001. 6(3): p. 253-260.

指導教授

葉士青

審核日期

2013-8-30

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