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研究生: 陳佑
Chen, Yo
論文名稱: 手臂動作對足球踢球表現的影響
The effects of arm movement in soccer kick
指導教授: 張家豪
Chang, Jia-Hao
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: 104
語文別: 中文
論文頁數: 61
中文關鍵詞: 球速射門肌電訊號動作分析擺臂
英文關鍵詞: ball velocity, shooting, EMG, motion analysis, arm swing
論文種類: 學術論文
相關次數: 點閱:205下載:58
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  • 目的:為增進足球踢球技術,本研究經由運動學和動力學分析,瞭解手臂擺動是否能增進踢球表現,期能提升踢球技巧。方法:受試者為22位大學足球員 (一級選手11位,年齡: 22.2 ± 3.1歲,身高 172.5 ± 6.7,體重 70.4 ± 13.9 kg,球齡 10.4 ± 3.2 年;二級選手11位,年齡: 25.2 ± 3.1歲,身高 173.4 ± 4.3 cm,體重 69.8 ± 9.9 kg,球齡 7.0 ± 3.1年),經由10台高速攝影機的Vicon動作分析系統 (200 Hz) 拍攝擺臂和不擺臂踢球動作,以Kistler測力板 (1000 Hz) 測量地面反作用力,Noraxon無線肌電訊號系統 (1500 Hz) 收集與分析肌電訊號,Visual3D分析力學參數。統計以二因子變異數分析和t檢定瞭解擺臂動作與層級對球速、肢段線運動速度、關節角度、下肢動力鏈與足底壓力面積,以及對肌肉活化程度是否有影響,顯著性考驗為 α = .05。結果:一級選手擺臂踢球之球速較快,為 27.2 ± 2.2 m/s,不擺臂為 24.4 ± 1.9 m/s。二級選手的球速不受擺臂影響,擺臂為 21.2 ± 1.9 m/s,不擺臂為 20.2 ± 2.2 m/s。一級選手擺臂踢球時,下肢關節活動角度較大、肢段線運動速度與角速度較高。一級與二級選手擺臂踢球時,支撐腳側傾角度皆較大,在動力鏈中大腿加速的時間較長;擺臂不影響下肢肌肉活化程度,但一級選手不擺臂時外側廣肌會提早活化。結論:擺臂幫助支撐腳傾斜,使下肢有更好的踢球空間增進肢段速度與角速度,一級選手經由擺臂能提昇球速,但擺臂未能增加二級選手之球速,二級選手能經由增加小腿的下擺增進球速。一級選手不擺臂時,大腿向後上擺空間較小,外側廣肌提前活化使膝關節外轉幫助小腿向後上擺至預備下擺踢球之位置。

    Purpose: To improve kicking performance. This study analyzed the differences in kinematics and kinetics to understand the effects of arm movement on kicking. Method: Twenty-two male soccer players were recruited in this study (11 subjects in the first division, age: 22.2 ± 3.1, height: 172.5 ± 6.7, mass: 70.4 ± 13.9 kg, experience: 10.4 ± 3.2 years; 11 subjects in the second division, age: 25.2 ± 3.1, height: 173.4 ± 4.3 cm, mass: 69.8 ± 9.9 kg, experience: 7.0 ± 3.1 years). Vicon high-speed cameras (200 Hz) were used to capture 3D kicking motion. A Kistler force plate (1000 Hz) was used to measure ground reaction force. The Noraxon wireless electromyography system (1500 Hz) was used to acquire and measure surface muscle activity. Visual3D software was used to calculate the biomechanical parameters. Two-way ANOVA and t-tests were used to compare the ball velocity, segment linear velocity, joint angle, angular velocity, kinetics chain, area of center of pressure, and muscle activity between two kicking conditions and divisions. The statistical significance was set at α = .05. Result: Greater ball velocity was found in kicking with arm swing in first division players. The velocity was 27.2 ± 2.2 m/s and 24.4 ± 1.9 m/s with and without arm swing, respectively. No difference in ball velocity was found in second division players. The ball velocity was 21.2 ± 1.9 m/s and 20.2 ± 2.2 m/s with and without arm swing, respectively. Greater segment linear velocity, angular velocity, and range of motion were found in first division players when kicking with arm swing. Both first and second division players had a greater lean angle on the supporting foot and a longer time of thigh acceleration in the kinetics chain when kicking with arm swing. Muscle activity was similar between the two kicking conditions, but earlier onset of vastus lateralis activity was observed when kicking with arm swing in first division players. Conclusion: Arm swing increased the lean angle in the supporting leg, and provided better space for increasing segment velocity and angular velocity in the kicking leg. Ball velocity was improved by arm swing in first division players but not in second division players. Second division players can increase shank extension to improve ball velocity. When first division players kicked without arm awing, the thigh had less extension and the onset of vastus lateralis activity was earlier to assist knee external rotation and flexion in the kicking position.

    口試委員與系主任簽字之論文通過簽名表............................i 論文授權書.................................................ii 中文摘要..................................................iii 英文摘要...................................................iv 謝誌......................................................vi 目次.....................................................vii 表次......................................................ix 圖次.......................................................x 第壹章 緒論................................................1 第一節 研究背景.........................................1 第二節 研究目的.........................................2 第三節 操作性名詞定義解釋.................................2 第四節 研究範圍與限制....................................4 第貳章 文獻探討.............................................6 第一節 手臂動作與運動表現.................................6 第二節 踢球的動力學與運動學研究............................8 第三節 肌電分析與相關研究................................11 第四節 本章結語........................................13 第參章 研究方法............................................14 第一節 實驗參與者......................................14 第二節 實驗時間與地點...................................14 第三節 實驗器材........................................15 第四節 實驗流程........................................16 第五節 資料分析........................................19 第六節 統計分析........................................24 第肆章 結果與討論..........................................25 第一節 結果...........................................25 第二節 討論...........................................43 第伍章 結論與建議..........................................51 引用文獻...................................................52 附錄 附錄一 研究參與者知情同意書..............................58 附錄二 行為與社會科學研究倫理委員會審查核可證明.............59 附錄三 實驗紀錄表......................................60 附錄四 論文相關研討會發表................................61

    沈進益 (2003)。不同助跑角度足球定位踢遠之運動學分析 (未出版之碩士論文)。國立臺灣師範大學體育研究所,台北市。

    宋光裕 (2008)。不同加速度與膝關節彎曲角度的全身震動刺激對下肢肌群肌電表現及共同收縮之影響 (未出版之碩士論文)。國立嘉義大學體育與健康休閒研究所,嘉義市。

    李尚儒 (2011)。動靜態伸展對深垂直跳高度與牽張-縮短循環肌電活化之影響 (未出版之碩士論文)。國立體育學院教練研究所,桃園縣。

    邱榮基 (1997)。下肢肌力與足球踢球能力的研究 (未出版之碩士論文)。文化大學教練研究所,臺北市。

    邱靖華 (2000)。足球踢遠與射門分析。中華體育,14 (3),118-128。

    林偉達 (1983)。足球十二碼球內側踢法之運動學分析 (未出版之碩士論文)。國立臺灣師範大學體育研究所,台北市。

    張恩崇、相子元 (2002)。擺臂動作對於排球助跑與起跳期之影響。教練科學,1。 81-88。

    張恩崇 (2001)。我國優秀三級男子排球選手四號位強攻扣球運動學分析 (未出版之碩士論文)。國立體育學院教練研究所,桃園縣。

    許晏彰 (2006)。足球長傳動作之二維生物力學分析 (未出版之碩士論文)。國立成功大學醫學工程研究所,臺南市。

    莊泰源 (2006)。支撐腳穩定度對足球定位踢球準確性之相關研究。運動生理暨體能學報,4,117-128。

    陳重佑 (2004)。以獲取運動速度的最大衝量原理探討垂直跳動作的擺臂作用效果。國立臺灣體育學院學報,14,1-15。

    錢思佑、吳忠政、張怡雯 (2012)。踝關節不穩定之排球選手過網攔網動作的下肢肌電訊號分析。大專體育學刊,14(1),100-108。
    薛慧玲 (2002)。足球選手爆發力與踢遠、踢準能力相關之研究 (未出版之碩士論文)。國立體育學院教練研究所,桃園縣。

    羅宏仁 (1998)。垂直跳擺臂動作之生物力學分析 (未出版之碩士論文)。文化大學教練研究所,臺北市。

    Abbeydale Press (2002). Soccer skills and techniques. Leicestershire: Author.

    Andersen, T. B., & Dörge, H. C. (2011). The influence of speed of approach and accuracy constraint on the maximal speed of the ball in soccer kicking. Scandinavian journal of medicine & science in sports, 21(1), 79-84.

    Apriantono, T., Nunome, H., Ikegami, Y., & Sano, S. (2006). The effect of muscle fatigue on instep kicking kinetics and kinematics in association football. Journal of Sports Sciences, 24(9), 951-960.

    Ashby, B. M., & Heegaard, J. H. (2002). Role of arm motion in the standing long jump. Journal of Biomechanics, 35, 1631–1637.

    Ball, K. (2013). Loading and performance of the support leg in kicking. Journal of Science and Medicine in Sport, 16(5), 455-459.

    Ball, K. (2008). Biomechanical considerations of distance kicking in Australian Rules football. Sports Biomechanics, 7(1), 10-23.

    Barbieri, F. A., Gobbi, L. T., Santiago, P. R., & Cunha, S. A. (2010). Performance comparisons of the kicking of stationary and rolling balls in a futsal context. Sports Biomechanics, 9(1), 1-15.

    Barfield, W. R. (1995). Effects of selected kinematic and kinetic variables on instep kicking with dominant and nondominant limbs. Journal of Human Movement Studies, 29(6), 251.

    Barfield, W. R., Kirkendall, D. T., and Yu, B. (2002). Kinematics instep kick differences between elite female and male soccer players. Journal of sports science and medicine, 1, 72-79.

    Bray, k., & Kerwin, D. (2003). Modelling the flight of a soccer ball in a direct free kick . Journal of Sports Sciences, 21(2), 75-85.

    Brophy, R. H., Backus, S. I., Pansy, B. S., Lyman, S., & Williams, R. J. (2007). Lower extremity muscle activation and alignment during the soccer instep and side-foot kicks. Journal of Orthopaedic & Sports Physical Therapy, 37(5), 260-268.

    Brown, E. W. (2002). Biomechanics in Youth Sports. International Research in Sports Biomechanics, 287.

    Chaudhari, A. M., Hearn, B. K., & Andriacchi, T. P. (2005). Sport-Dependent Variations in Arm Position During Single-Limb Landing Influence Knee Loading Implications for Anterior Cruciate Ligament Injury. The American journal of sports medicine, 33(6), 824-830.

    Davids, K. W., Button, C., & Bennett, S. J. (2008). Dynamics of skill acquisition: A constraints-led approach. Human Kinetics.

    Dorge, H. C., Anderson, T. B., Sorensen, H., and Simonsen, E. B. (2002). Biomechanical difference in soccer kicking with the preferred and thenon-preferred leg. Journal of Sports Sciences, 20, 293-299.

    Floria, P. and Harrison, A. J. (2013). The effect of arm action on the vertical jump performance in children and adult females. Journal of Applied Biomechanics.29, 655-621.

    Hewett, T. E., Myer, G. D., Ford, K. R., Heidt, R. S., Colosimo, J.A., McLean, S. G., Van den Bogert, A. J., Paterno, M., and Succop, P. (2005). Biomechanical Measures of Neuromuscular Control and Valgus Loading of the Knee Predict Anterior Cruciate Ligament Injury Risk in Female Athletes: A Prospective Study. American Journal of Sports Medicine, 33, 492-501.

    Harman, E. A., Rosenstein, M. T., Frykman, P. N., and Rosenstein, R.M. (1990). The effects of arms and countermovement on vertical jumping. Medicine and Science in Sports And Exercise, 22, 825-833.

    Healy, A., Moran, K. A., Dickson, J., Hurley, C., Smeaton, A. F., O'Connor, N. E., Kelly, P., Haahr, M., & Chockalingam, N. (2011). Analysis of the 5 iron golf swing when hitting for maximum distance. Journal of sports sciences, 29(10), 1079-1088.

    Kellis, E. & Katis A., (2007). Biomechanical characteristics and determinants of instep soccer kick. Journal of Sports Science and Medicine, 6,154-165.

    Kellis, E., Katis, A., and Gissis, I. (2004). Knee biomechanics of the support leg in soccer kicks from three angles of approach. Medicine and Science in Sports And Exercise, 36(6), 1017.

    Kellis, E., Arabatzi, F., and Papadopoulos, C. (2003). Muscle co-activation around the knee in drop jumping using the co-contraction index. Journal of Electromyography and Kinesiology, 13(3), 229-238.

    Konrad, P. (2005). The ABC of EMG. Scottsdale, AZ: Noraxon.

    Lees, A., & Nolan, L. (1998). The biomechanics of soccer: a review. Journal of sports sciences, 16(3), 211-234.

    Levanon, J. & Dapena, J. (1998) Comparison of the kinematics of the full-instep and pass kicks in soccer. Medicine and Science in Sports and Exercise , 30, 917-927.

    Luhtanen, P., & Komi, P.V. (1978). Segmental contribution to force in vertical jump. European Journal of Applied Physiology, 38, 181-188.

    Manolopoulos, E., Papadopoulos, C., & Kellis, E. (2006). Effects of combined strength and kick coordination training on soccer kick biomechanics in amateur players. Scandinavian journal of medicine & science in sports, 16(2), 102-110.

    Naito, K., Fukui, Y., & Maruyama, T. (2010). Multijoint kinetic chain analysis of knee extension during the soccer instep kick. Human movement science, 29(2), 259-276.

    Nolan, L., & Lees, A. (1998). The biomechanics of soccer: A review. Journal of SportsSciences, 16(3), 221-234.

    Nunome H., Asai T., Ikegami Y., and Sakurai S. (2002). Three dimensional kinetic analysis of side-foot and instep soccer kicks. Medicine and Science in Sports and Exercise, 34, 2028-2036.

    Nunome H., Lake M., Georgakis A., and Stergioulas L. (2006). Impact phase kinematics of instep kicking in soccer. Journal of Sports Sciences, 24,11-22.
    Orloff, H., Sumida, B., Chow, J., Habibi, L., Fujino, A., & Kramer, B. (2008). Ground reaction forces and kinematics of plant leg position during instep kicking in male and female collegiate soccer players. Sports Biomechanics, 7(2), 238-247.

    Ozaki, H., & Aoki, K. (2008). Kinematic and electromyographic analysis of infront curve soccer kick. Football science, 5, 26-36.

    Ozaki, H., Sunami, S., & Ishii, H. (2010). Kinematic analysis of lower limb in futsal ball kicking. Scientific Proceedings of the 28th International Conference on Biomechanics in Sports 2010 (pp. 493). July 19-23, 2010, Michigan: USA.

    Pontzer, H., Holloway, J. H., Raichlen, D. A., and Lieberman, D. A. (2008). Control and function of arm swing in human walking and running. Journal of Experimental Biology, 212, 523-534.

    Potthast, W., Heinrich, K., Schneider, J., and Brueggemann., G. (2010). The success of soccer kick depends on run up deceleration. Scientific Proceedings of the 28th International Conference on Biomechanics in Sports 2010 (pp. 462). July 19-23, 2010, Michigan: USA.

    Poulmedis, P., Rondoyannis, G., Mitsou, A., and Tsarouchas, E. (1988). The influence of isokinetic muscle torque exerted in various speeds on soccer ball velocity. Journal of Orthopaedic & Sports Physical Therapy, 10(3), 93-96.

    Robertson, G., Caldwell, G., Hamill, J., Kamen, G., & Whittlesey, S. (2004). Research methods in biomechanics. Champaign, IL: Human Kinetics.

    Scurr, J. C., Abbott, V., and Ball, N. (2011). Quadriceps EMG muscle activation during accurate soccer instep kicking. Journal of Sports Sciences, 29, 247-251.

    Shan, G., & Westerhoff, P. (2005). Full-body kinematic characteristics of the maximal instep soccer kick by male soccer players and parameters related to kick quality. Sport biomechanics, 4(1), 59-72.

    Vena, A., Budney, D., Forest, T., & Carey, J. P. (2011). Three-dimensional kinematic analysis of the golf swing using instantaneous screw axis theory, part 1: methodology and verification. Sports Engineering, 13(3), 105-123.

    Whiteside, D., Alderson, J., & Elliott, B. (2010, April). Bend it like Beckham”: Ball rotation in the curved football kick. In 28th International Society of Sports Biomechanics Conference (pp. 297-300).

    Wulf, G., Dufek, J. S., Lozano, L., & Pettigrew, C. (2010). Increased jump height and reduced EMG activity with an external focus. Human Movement Science, 29(3), 440-448.

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