簡易檢索 / 詳目顯示

研究生: 薛尹彰
Hsueh, Yi-Chang
論文名稱: 羽球啟動步法之起跳時機及下肢生物力學分析
Take off Timing and Biomechanical analysis of Lower Extremities in Badminton split step
指導教授: 蔡虔祿
Tsai, Chien-Lu
學位類別: 博士
Doctor
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2015
畢業學年度: 103
語文別: 中文
論文頁數: 79
中文關鍵詞: 步法反應時間下肢勁度
英文關鍵詞: footwork, reaction time, lower extremity stiffness
論文種類: 學術論文
相關次數: 點閱:176下載:39
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
  • 羽球啟動步法是羽球運動中的重要基礎之一,但在啟動時機及下肢發力方面仍缺乏科學的研究。本研究目的是在比較不同球路下,各擊球位置的啟動時機、反應時間與啟動時下肢動力學參數上的差異。方法:受試者為八位大專男子甲組羽球選手(身高:173 ± 3.6 cm,體重:68.1 ± 4.67 kg,年齡:21 ± 3 歲),實驗中使用10部(Vicon MX-13+) 紅外線攝影機 (300Hz) 及Nexus1.8軟體來蒐集動作影像資料,而地面反作用力則以兩塊測力板(Kistler9287、AMTI5507)收集相關數據,再以Visual 3D軟體計算運動學及動力學資料。所得參數以無母數魏可遜配對組符號等級測驗或弗里曼二因子等級變異數分析的統計方法來檢定(顯著水準定為α=.05)。結果:前啟動期各方向的重心變化、地面反作用力及輕跳離地時機均無顯著差異,但輕跳離地時機為擊球後14~37毫秒。動作期間,與擊球位置相反之反側腳的下肢推蹬力量、總衝量顯著大於同側腳。中場啟動時,雙腳有稍大的下肢勁度、推蹬腳有較大的水平推蹬力。左前場啟動時,推蹬腳有較大的最大水平推蹬力,以及較慢的重心水平速度。在推蹬腳關節作功比例,前、中場以髖、膝關節較大,後場則以踝關節較大。在反應時間上,各擊球位置的反應時間約在對手擊球後的0.3秒,且整體反應時間以中場顯著快於前場與後場。結論:前啟動期的六種預備動作皆有一致性。啟動期之輕跳時機應同時於對手擊球瞬間。啟動以啟動方向的反側腳推蹬,中場啟動需較大的下肢勁度、水平推蹬力和較短的整體反應時間,左前場則需較大的水平推蹬力。前、中場的推蹬腳發力應著重於髖和膝關節,後場則以踝關節為主。若要有較佳的回擊,下肢應於對手擊球後0.3秒內要有正確推蹬方向與最大推蹬發力。

    Split step is a critical basis of badminton footwork. However, scientific studies on the timing and lower extremities kinetics of badminton split step remain insufficient. Therefore, the purpose of this study was to compare, for six direction movements, the players’ split timing, reaction time, and lower extremities kinetics during push-offs. Method:Eight collegiate elite male badminton players participated in this study (height: 173 ± 3.6 cm; weight: 68.1 ± 4.67 kg; age: 21 ± 3 years). Motion images were record by 10 Vicon MX-13+ (300 Hz) infrared cameras, Nexus 1.8 software for data collection, 2 force plates (Kistler 9287, AMTI 5507) to collect ground reaction forces, and Visual 3D software for calculating kinematic and kinetic data. The data obtained were assessed using the nonparametric Wilcoxon signed-rank test or Friedman’s 2-way analysis of variance by ranks in which the level of significance was set as α = .05. Result:There were no significant difference in the variables of COM, GRF and hop timing among six start direction before propulsion phase, and hop timing occurred in 14~37 ms after the opponent struck the shuttlecocks. During the propulsion phase, the leg which was opposite the movement direction have significantly greater lower extremity push-off force and total impulse than that in the homolateral leg. There were greater lower extremity stiffness and significantly greater horizontal push-off force of pushing leg in the midcourt start. In the left of front court start, there was greater peak horizontal push off force of pushing leg , but slower horizontal COM velocity. In the front court and midcourt, the energies generated by the hip and knee joints were significantly greater than that of the ankle joint in pushing leg ; in the rear court, the ankle joint showed significantly greater energy generation than the hip and knee joints did. The reaction time of each start direction occurred about 0.3 sec after the players struck the shuttlecocks. The total reaction time of midcourt was faster than the front court and rear court. Conclusion : The prepare movement before the propulsion phase must be consistent and hop simultaneously with the opponent struck the shuttlecocks. The leg opposite the movement direction was the main pushing leg. Greater lower extremity stiffness, horizontal push-off force and shorter total reaction time were needed in midcourt start. In the left of front court, it needed greater horizontal push off force to start. The main pushing joint of lower extremity was hip and knee in the front court and the midcourt start, but the main pushing joint in the rear court was ankle. When lower extremity have correct pushing direction and peak pushing off force within 0.3 sec, the players will have a better hit back in badminton competition.

    ======目 次====== 口試委員與系主任簽字之論文通過簽名表 i 中文摘要 ii 英文摘要 iii 謝 誌 v 目 次 vi 表 次 viii 圖 次 ix 第壹章 緒論 1 第一節 研究背景 1 第二節 問題背景 2 第三節 研究目的 4 第四節 研究假設 4 第五節 名詞操作性定義 5 第六節 研究範圍 8 第七節 研究限制 9 第貳章 文獻探討 10 第一節 反應時間 10 第二節 啟動步的運用 14 第三節 牽張-收縮循環和下肢勁度 16 第四節 羽球下肢傷害及步法的相關研究 20 第參章 研究方法步驟 23 第一節 研究對象 23 第二節 實驗時間及地點 23 第三節 實驗儀器及設備 23 第四節 實驗場地及佈置 24 第五節 研究架構 26 第六節 實驗流程 27 第七節 資料收集 29 第八節 資料處理 32 第九節 統計分析 38 第肆章 結果 39 第一節 動作時機 39 第二節 重心的變化 43 第三節 前啟動期和動作期之左、右腳地面反作用力比較 52 第四節 動作期之下肢勁度及推蹬腳水平地面反作用力之比較 56 第五節 啟動期左、右腳推蹬之關節貢獻度 58 第伍章 討論與結論 64 第一節 討論 64 第二節 結論及建議 71 引用文獻 73

    王智宏、涂國誠、邱宏達(2007)。羽球選手阿基里斯腱受傷機轉之生物力學分析。大專體育學刊,9(3),97-105。

    平川卓弘、胡小藝 (1995)。羽毛球基本論。臺北:益群

    何維華、李超群、相子元 (2004)。以MRI法建立台灣青年男子人體肢段參數之研究。中華生物醫學工程期刊,24(1),1-6。

    周財勝、盧正崇 (2005)。羽球運動-擊球步法應用技術之探討,大專體育,76,170-175。

    林政東、陳全壽 (2000)。兩種不同牽張幅度深跳練習的二階段肌電現象之比較。體育學報,28,329-338。

    林政東、吳國輝 (2010)。台灣運動員不同強度深跳動作的表現之分析。運動教練科學,18,47-58。

    林政東、劉宇、林謙如 (2001)。兩種不同牽張幅度深跳練習的彈性勁度之分析。大專體育學刊,3(2),143-151

    林淑親、林耀豐 (2007)。影響反應時間因素之探討。中華體育季刊,21(3),103-117。

    林清和 (1996)。運動學習程式學。台北市:文史哲出版社。

    林耀豐 (1996)。影響反應時間因素之探討及應用。中華體育季刊,9(4),81-88。

    林耀豐、林清和 (1996)。不同網球接發球反應前期與方向對其反應及動作時間的影響。體育學報,21,195-206。

    俞繼英 (2001)。奧林匹克羽毛球。中國北京:人民體育出版社。

    施榮展、翁梓林、林武城、邱鈺烘 (2005)。羽球選手上網步法最後一步跨步動作之探討。運動生物力學研究彙刊(一),266-267。

    洪聰敏、豐東洋 (2003)。運動員與非運動員訊息處之研究。體育學報,35,117-126。

    胡名霞 (2006)。動作控制與動作學習(第二版)。新北市:金名圖書有限公司。

    涂國誠 (1999)。羽球基本步法及應用步法的分析。中華體育季刊,13(2),46-55。

    涂國誠 (2007a)。羽球新規則的實施對單打競賽時間結構及技術使用率的影響,體育學報,40 (3),129~142。

    涂國誠 (2007b)。羽球運動-教學與訓練。臺北市:品度公司。

    翁梓林 (2000)。影響短距離起跑之生物力學分析。國立臺北師範學院學報,13,569-581

    張博、紹年 (2002)。羽毛球。臺北市:國家出版社。

    張嘉芳、林耀豐 (2010)。預期對技能水準表現的影響。中華體育季刊,24(3),43-49。

    許太彥 (2003)。國小學童赤腳著地動作之生物力學分析 (未出版博士論文) 。國立臺灣師範大學,臺北市。

    陳秋梅、邱憲祥 (2005)。羽球運動的起源及發展,大專體育,76 ,138-144。

    黃昊昀、寧黃麟、李佳達、呂東武 (2010)。空手道選手逆擊動作反應時間與動作時間之分析與探討。運動教練科學,20,83-92。

    黃貴樹 (2007)。羽球步法啟動之運動生物力學分析 (未出版博士論文) 。國立臺灣師範大學,臺北市。

    詹建人 (2013)。球速及刺激-反應相容性對網球截擊動作反應時間的影響-以青少年網球選手為對象。屏東教大運動科學學刊,8,10-27。

    劉于詮 (2008)。我國青少年羽球選手運動傷害調查分析-以2008年台灣省羽球協會會長暨Wilson(k)FACTOR盃全國青少年羽球錦標賽為例。屏東教大體育,14,384-396。

    劉鎮國 (2001)。應用虛擬實境探討我國大專足球運動員反應時間。大專體育學刊,3(2),35-46。

    盧正崇、張雅棻(2007)。論羽球專項速度。大專體育,89,16-20。

    薛尹彰、潘光敏、楊文添、廖偉成、鄭任佑、蔡虔祿 (2014)。羽球兩種正拍切球與殺球之運動學分析。臺北城市運動健康休閒學刊,3(2),1-15。

    蘇韋丞、林耀豐 (2006)。不同反應形式與刺激-反應相容性對桌球接發球之反應時間和動作時間的影響。台灣運動心理學報,9,85-107。

    Arampatzis, A., Bruggemann, G., & Metzler, V. (1999). The effect of speed on leg stiffness and joint kinetics in human running. Journal of Biomechanics, 32, 1349–1353.

    Arampatzis, A., Bruggemann, G., & Klapsing, G.M. (2001a). Leg stiffness and mechanical energetic processes during jumping on a sprung surface. Medicine and Science in Sports and Exercise, 33, 923–931.

    Arampatzis, A., Schade, F., Walsh, M., & Bruggemann, G.P. (2001b). Influence of leg stiffness and its effect on myodynamic jumping performance. Journal of Electromyogrphy and Kinesiology. 11, 355–364.

    Baechle T.R., & Earle R.W. (2000). Essentials of strength training and conditioning (2nd ed.). Champaign, IL: National Strength and Conditioning Association

    Bankosz, Z., Nawara, H. & Ociepa, M. (2013). Assessment of simple reaction time in badminton players. Journal of Trends in sport Sciences, 1(20), 54-61.

    Besier, T. F., Lloyd, D. G., Ackland. T. R., & Cochrane J. L. (2001a). Anticipatory effects on knee joint loading during running and cutting maneuvers. Medicine & Science in Sports & Exercise, 33(7), 1176-1181.

    Besier, T. F., Lloyd, D. G., Cochrane, J. L., & Ackland. T. R. (2001b). External loading of the knee joint during running and cutting maneuvers. Medicine & Science in Sports & Exercise, 33(7), 1168-1175.

    Besier, T. F., Lloyd, D. G., Cochrane, J. L., & Ackland. T. R. (2003). Muscle activation strategies at the knee during running and cutting maneuvers. Medicine & Science in Sports & Exercise, 35(1), 119-127.

    Brown, R. M., Delong, D., Brown, N. L., & Reld, K. (1995). Stimulus-response compatibility and videogame performance. Perceptual and Motor Skills, 80, 691-698.

    Chin, M. K., Wang, A. S. K., So, R. C. H., Siu, O. T., Steininger, K., & Lo, D. T. L. (1995). Sport specific fitness testing of elite badminton players. British Journal of Sports Medicine, 29(3), 153-157.

    Farley, C.T., Blickhan, R., Saito, J., & Taylor, C.R. (1991). Hopping frequency in humans: a test of how springs set stride frequency in bouncing gaits. Journal of Applied Physiology, 71, 2127–2132.

    Finni, T., Ikegawa, S., & Komi, P. V. (2001). Concentric force enhancement during human movement. Acta Physiologica Scandinavica, 173, 369–377.

    Finni, T., Ikegawa, S., Lepola, V., & Komi, P. V. (2003). Comparison of force velocity relationships of vastus lateralis muscle in isokinetic and in stretch-shortening cycle exercises. Acta Physiologica Scandinavica, 177, 483–491.

    Fitts, P. M., & Posner, M. I. (1967). Human performance. Belrnont, CA: Brooks/Cloe.

    Hick, W. E. (1952). On the rate of gain of information. Quarterly Journal of Experimental Psychology, 4, 11-26

    Houck, J. (2003). Muscle activation patterns of selected lower extremity muscles during stepping and cutting tasks. Journal of Electromyography and Kinesiology, 13, 545-554.

    Ishikawa, M., & Komi, P. V. (2007). The role of the stretch reflex in the gastrocnemius muscle during human locomotion at various speeds. Journal of Applied Physiology, 103, 1030-1036.

    Jin, H., Xu, G., Zhang, J. X., Gao, H., Ye, Z., Wang, P. … Lin, C. D. (2011). Event-related potential effects of superior action anticipation in professional badminton players. Journal of Neuroscience Letters, 492, 139-144.

    Komi, P. V. (2008). Strength and Power in sport (2nd ed). Champaign, IL: Wiely-Blackwell

    Kuntze, G. Mansfield, N. & Sellers, W. (2010). A biomechanical analysis of common lunge tasks in badminton. Journal of Sports Sciences, 28(2), 183-191.

    Kuitunen, S., Komi, P.V. & Kyrolainen, H. (2002). Knee and ankle stiffness during sprint running. Medicine & Science in Sports & Exercise, 34, 166–173.

    Latash, M.L., Zatsiorsky, V.M. (1993). Joint stiffness: Myth or reality? Human Movement Science, 12, 653–692.

    Luiz de França Bahia Loureiro Jr., & Paulo Barbosa de Freitas. (2012). Influence of the performance level of badminton players in neuromotor aspects during a target-pointing task. Revista Brasileira de Medicina do Esporte, 18(3), 203-208.

    Magill, R.A. (2007). Motor learning and control : concepts and applications (8th ed.). New York: McGraw-Hill.

    McMahon, T.A., & Cheng, G.C. (1990). The mechanics of running: how does stiffness couple with speed? Journal of Biomechanics, 23 (Suppl 1), 65–78.

    Martain, F. (2009). Badminton. In D. J. Canie, P. A. Harmer, & M. A. Schiff (Eds.), Epidemiology of Injury in Olympic Sports (pp. 49-58). Champaign, IL: Wiley Blackwell.

    Moran, K. A., & Wallace, E. S. (2007). Eccentric loading and range of knee joint motion effects on performance enhancement in vertical jumping. Journal of Human Movement Science, 26, 824-840.

    Mori, S., Ohtani, Y., & Imanaka, K. (2002). Reaction times and anticipatory skills of karate athletes. Journal of Human Movement Sceience, 21(2), 213-230.

    Nieminen, M. J. J., Piirainen, J. M., Salmi, J. A. & Vesa Linnamo, V. (2014). Effects of neuromuscular function and split step on reaction speed in simulated tennis response. European Journal of Sport Science, 14(4), 318-326.

    Owings, T. M., Lancianese, S. L., Lampe, E. M., & Grabiner, M. D. (2003). Influence of ball velocity, attention, and age on response time for a simulated catch. Medicine & Science in Sports & Exercise, 35(8), 1397-1405.

    Potach, D. H., & Chu, D. A. (2000). Plyometric Training ( 2nd ed.). Champaign, IL: Human Kinetics.

    Rosebaum, D. A. (1983). The movement precuing technique: Assumption, application, and extention. In R. A. Magill (Ed.), Memory and control of action (pp. 251-274). Amsterdam: North-Holland.

    Schmidtbleicher, D. (1986) Neurophysiological aspects of jump training. In K. Carl, & J. Schiffer (Eds.), Zur Praxis des Sprungkrafttrainings (pp. 56–72). Köln: Bundesinstitut für Sportwissenschaft.

    Shariff, A. H., George, J., & Ramlan, A. A. (2009). Musculoskeletal injuries among malaysian badminton players. Singapore Medical Journal, 50(11), 1095-1097.

    Shuji, M., Yoshio, O., & Kuniyasu, I. (2002). Reaction times and anticipatory skills of karate athletes. Journal of Human Movement Science, 21, 213-230.

    Sheppard, J.M., & Young, W.B. (2006). Agility Literature Review: Classifications, Training and Testing. Journal of Sports Sciences, 24(9), pp.919-32.

    Tateuchi, H., Yoneda, T., Tanaka, T., Kumada, H., Kadota, M., Ohno, H., et al. (2006). Postural control for initiation of lateral step and step-up motions in young adults. Journal of Physical Therapy Science, 18, 49–55.

    Teixeira-Salmela, L. F., Nadeau, S., Milot, M.-H., Gravel, D., & Requião, L. F. (2008). Effects of cadence on energy generation and absorption at lower extremity joints during gait. Clinical Biomechanics, 23(6), 769-778.

    Tony, G. (2008). Badminton: Steps to Success (2nd ed.). Champaign, IL: Human Kinetics.

    Tsai, C. L., Yang, C. C., Lin, M. S., Huang, K. S., & Chang, S. S. (2006). The EMG activity of the lower extremities in badminton smash stroke. Journal of Biomechanics, 39 (suppl. 1), S562

    Trimble, M. H., Kukulka, C. G., & Thomas, S. R. (2000). Reflex facilitation during the stretch-shortening cycle. Journal of Electromyography Kinesiology, 10(3), 179-87.

    Tu, J. H., Lin, Y. F., & Chin, S. C. (2010). The influence of ball velocity and court illumination on reaction time for tennis volley. Journal of Sports Science and medicine, 9, 56-61.

    Uzu, R., Shinya, M., & Oda, S. (2009). A split-step shortens the time to perform a choice reaction step and reach movement in a simulated tennis task. Journal of Sports Science, 27(12), 1233-1240.

    Viitasalo, J. T. & Bosco, C. (1982). Electromechanical Behavior of Human Muscles in Vertical Jumps. European Journal of Applied Physiology and Occupational Physiology, 48(2), 253-261.

    Williams, A. M., Ward, P., Knowles, J. M., & Smeeton, N. J. (2002). Anticipation skill in real-world task: Measurement, training, and transfer in tennis. Journal of Experimental Psychology: Applied, 8(4), 259-270.

    Williams, L. R. T., & MacFarlane, D. J. (1975). Reaction time and movement speed in a high-velocity ball-catching task. International Journal of Sport Psychology, 6, 63-74.

    Young, W. B. & Farrow, D. (2006). A review of agility practical applications for strength and conditioning. Strength and Conditioning Journal, 28(5), 24-29.

    下載圖示
    QR CODE