研究生: |
沈進益 Shen, Chin-Yi |
---|---|
論文名稱: |
女子足球員慣用腳與非慣用腳之足內側最大力量踢球運動生物力學分析 Biomechanics analysis of the side-foot kick in female soccer players with preferred and non-preferred leg |
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: | 2018 |
畢業學年度: | 106 |
語文別: | 中文 |
論文頁數: | 115 |
中文關鍵詞: | 足內側踢 、女子足球員 、慣用腳與非慣用腳 |
英文關鍵詞: | side-foot kick, female soccer player, preferred and non-preferred legs |
DOI URL: | http://doi.org/10.6345/DIS.NTNU.DPE.020.2018.F03 |
論文種類: | 學術論文 |
相關次數: | 點閱:125 下載:19 |
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足內側踢球在足球比賽中是使用頻率最高技術之一,尤其多使用於罰球射門。但目前對於足內側踢研究鮮少出現於文獻,因此本研究的目的是比較女子足球員慣用腳與非慣用腳,在實施足內側最大力踢球之運動學與動力學參數上的差異性。實驗是以8名大專公開組女子足球員為對象(年齡21.25 ±1.33歲;身高161 ±5公分;體重57.23 ±7.69公斤),使用 10 部紅外線攝影機(Vicon MX-13+,250Hz)及一塊測力板(Kistler 9287)蒐集動作影像資料與地面反作用力數據,再以Nexus1.8軟體與Visual 3D軟體計算動力學資料;並以無母數魏克森符號等級檢定比較受試者慣用腳與非慣用腳在實施足內側最大力踢球的差異,顯著水準訂為α=.05。所得的結果顯示:慣用腳的球速顯著高於非慣用腳,慣用腳的整體動作時間與後擺期動作時間比非慣用腳長;慣用腳的最大屈髖力矩與伸膝力矩值顯著大於非慣用腳。本研究發現髖關節屈曲力矩是影響膝關節運動的重要因素。可從踢球腳的關節角度、力矩最大值出現的時機、關節角速度最大值出現的時機等因素,看到足內側踢球仍有良好動力鏈傳遞。慣用腳從足尖離地後,踢球腳擺動時間的較長,尤其大腿的後擺動作具有增益的效果,使得大腿屈肌肌群呈現離心收縮的作用,增加能量的儲存,以增加屈腿期的髖關節力矩,對於小腿伸展角速度有幫助,最後增加球速。在下肢關節協調方面,增加髖關節伸展角度和膝關節屈曲角度,使得下肢擺動過程的適當時機,讓踢球腳的最快速度與球體碰撞。而支撐腳的作用在於制動與協助踢球腳的擺動,以增加足內側踢球的速度。
The side-foot kick is one of the most used skills in soccer. The side-foot kick is frequently used for penalty kicks but there are few researches focused on the side-foot kick. The purpose of this study was to identify the biomechanical analysis of the side-foot kick in female with the preferred and non-preferred legs. Eight skilled female soccer players (age 21.25 ±1.33, height 1.61 ±0.05, weight 57.23 ±7.69) were recruited to be the participants. They were instructed to performed side-foot kicks with maximum effort. Their motions and ground reaction force were recorded by 10 motion capture system cameras (Vicon MX-13+, 250 Hz) and a force platform (Kistler 9287, 1000Hz), and then calculates the kinematics and kinetic data with Visual 3D. The data obtained were assessed using the Wilcoxon match-pairs signed-ranks nonparametric statistical test, the significant level was set as α=.05. The ball velocity, the total movement time and the backswing time, the peak hip flexion torque and the knee extension torque of the preferred leg were significantly greater than the non-preferred leg. This study found that hip flexion torque was an important factor affecting knee motions. In the proximal-to-distal energy transfer from the motion of the kicking foot, we found both motions obeyed the kinetic chain theory. When the kicking leg was from toe-off phase, the back-swing motion of the leg had a gain effect. So, we recommend in teaching, the stretching of the kicking foot causes the flexor muscles of the thigh to exhibit eccentric contraction, that might increase the storage of energy and the hip torque in leg-cocking, helps the shank extension velocity and increasing ball velocity. In terms of lower limb coordination, increased the hip extension angle and knee flexion angle could increase the contact velocity with the ball while performing the utilize knee extension to the maximum joint angular velocity at the appropriate timing. This results leaded to increase foot and ball speed directly. The role of the support foot was braking and assisted the kicking performance.
參考文獻
中文部分
吳宗樺 & 黃長福(2013)。足球射門動作之運動生物力學研究。長榮運動休閒學刊(7),80-89。
呂桂花(2009)。推動足球運動的願景與行動--以女子足球為例。學校體育(115),10-15。
沈進益(2002)。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)。臺灣師範大學體育學系,台北市。
林澤民(2007)。足球賽中傳球及控球效果分析研究。運動知識學報(4), 213-218。
邵俊赫(2015)。世界高水平足球赛进球特征研究(未出版之碩士論文)。集美大学,中國鄭州市。
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. doi: 10.6127/jepf.2006.04.12
黃子榮 & 梁建偉(2016)。2016 里約奧林匹克運動會女子足球亞洲區資格賽第一輪比賽統計與相關因素分析。興大體育學刊, 71-80。
蔡玉卿(2012)。淺談足球技術與生物力學。高應科大體育(11), 104-113。
蔡尚明(2010)。不同高度踢球點對足球凌空射門動作之生物力學分析。運動教練科學(17),95-107. doi: 10.6194/scs.2010.17.08
英文部分
Anderson, D. L., & Sidaway, B. (1994). Coordination changes associated with practice of a soccer kick. Research quarterly for exercise and sport, 65(2), 93-99.
Augustus, S., Mundy, P., & Smith, N. (2017). Support leg action can contribute to maximal instep soccer kick performance: an intervention study. J Sports Sci, 35(1), 89-98. doi: 10.1080/02640414.2016.1156728
Ball, K. (2008). Biomechanical considerations of distance kicking in Australian Rules football. Sports Biomech, 7(1), 10-23. doi: 10.1080/14763140701683015
Ball, K. A. (2011). Kinematic comparison of the preferred and non-preferred foot punt kick. J Sports Sci, 29(14), 1545-1552.
Barfield, W. (1995). Effects of selected kinematic and kinetic variables on instep kicking with dominant and nondominant limbs. Journal of Human Movement Studies, 29(6), 251.
Barreira, D., Garganta, J., & Anguera, M. (2011). In search of nexus between attacking game-patterns, match status and type of ball recovery in European Soccer Championship 2008. Research methods and performance analysis, 226, 226-237.
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. J Orthop Sports Phys Ther, 37(5), 260-268. doi: 10.2519/jospt.2007.2255
Chapman, S., Derse, E., & Hansen, J. (2008). Soccer Coaching Manual. Los Angeles: LA84 Foundation.
Dörge, H. C., Andersen, T., Sørensen, H., Simonsen, E. B., Aagaard, H., Dyhre‐Poulsen, P., & Klausen, K. (1999). EMG activity of the iliopsoas muscle and leg kinetics during the soccer place kick. Scand J Med Sci Sports, 9(4), 195-200.
Egan, C. D., Verheul, M. H., & Savelsbergh, G. J. (2007). Effects of experience on the coordination of internally and externally timed soccer kicks. Journal of Motor Behavior, 39(5), 423-432.
Foundation, L. (2012). Soccer Coaching Manual.
Hughes, M., & Franks, I. (2005). Analysis of passing sequences, shots and goals in soccer. J Sports Sci, 23(5), 509-514.
Inoue, K., Nunome, H., Sterzing, T., Shinkai, H., & Ikegami, Y. (2014). Dynamics of the support leg in soccer instep kicking. J Sports Sci, 32(11), 1023-1032. doi: 10.1080/02640414.2014.886126
Isokawa, M., & Lees, A. (1988). A biomechanical analysis of the instep kick motion in soccer. In Reilly, T., Lees, A., Davids, K., & Murphy, W. J. (eds.), Science and football(pp. 449-455). New York: E & FN Spon.
Katis, A., & Kellis, E. (2010). Three-dimensional kinematics and ground reaction forces during the instep and outstep soccer kicks in pubertal players. J Sports Sci, 28(11), 1233-1241. doi: 10.1080/02640414.2010.504781
Kawamoto, R., Miyagi, O., Ohashi, J., & Fukashiro, S. (2007). Kinetic comparison of a side-foot soccer kick between experienced and inexperienced players. Sports Biomech, 6(2), 187-198. doi: 10.1080/14763140701324966
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., & Gissis, I. (2004). Knee Biomechanics of the Support Leg in Soccer Kicks from Three Angles of Approach. Medicine & Science in Sports & Exercise, 36(6), 1017-1028. doi: 10.1249/01.mss.0000128147.01979.31
Lees, A., & Nolan, L. (1998). The biomechanics of soccer: a review. J Sports Sci, 16(3), 211-234. doi: 10.1080/026404198366740
Lees, A., Asai, T., Andersen, T. B., Nunome, H., & Sterzing, T. (2010). The biomechanics of kicking in soccer: a review. J Sports Sci, 28(8), 805-817. doi: 10.1080/02640414.2010.481305
Lees, A., Steward, I., Rahnama, N., & Barton, G. (2009). Lower limb function in the maximal instep kick in soccer. Contemporary Sport, Leisure and Ergonomics. New York: Taylor & Francis, 149-160.
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(6), 917-927.
Liu, H., Gomez, M.-Á., Lago-Peñas, C., & Sampaio, J. (2015). Match statistics related to winning in the group stage of 2014 Brazil FIFA World Cup. J Sports Sci, 33(12), 1205-1213.
Magill, R. A. (2004). Motor Learning and Control: Concepts and Applications: McGraw-Hill.
Manolopoulos, E., Papadopoulos, C., & Kellis, E. (2006). Effects of combined strength and kick coordination training on soccer kick biomechanics in amateur players. Scand J Med Sci Sports, 16(2), 102-110. doi: 10.1111/j.1600-0838.2005.00447.x
Nunome, H., Asai, T., Ikegami, Y., & Sakurai, S. (2002). Three-dimensional kinetic analysis of side-foot and instep soccer kicks. Med Sci Sports Exerc, 34(12), 2028-2036. doi: 10.1249/01.MSS.0000039076.43492.EF
Nunome, H., Asai, T., Ikegami, Y., & Sakurai, S. (2002). Three-dimensional kinetic analysis of side-foot and instep soccer kicks. Medicine and science in sports and exercise, 34(12), 2028-2036.
Nunome, H., Ikegami, Y., Asai, T., & Sato, Y. (2000). A KINETIC COMPARISON OF THE INSIDE SOCCER KICK BETWEEN HIGH PERFORMANCE PLAYER AND JUNIOR PLAYERS. Paper presented at the ISBS-Conference Proceedings Archive.
Nunome, H., Lake, M., Georgakis, A., & Stergioulas, L. K. (2006). Impact phase kinematics of instep kicking in soccer. J Sports Sci, 24(1), 11-22. doi: 10.1080/02640410400021450
Newell K. M. (1985). Coordination, Control and Skill.27,295-317.
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 Biomech, 7(2), 238-247. doi: 10.1080/14763140701841704
Phiiliph, W. (1985). Effects of selected kinematic and kinetic variables on instep kicking with dominant and nondominant limbs. Journal of Human Movement Studies, 29, 251-272.
Rodano, R., & Tavana, R. (1993). Three dimensional analysis of the instep kick in professional soccer players. Science and football II, 357-361.
Sakamoto, K. N., Naoki; Hong, Sungchan, & Asai, T. (2016). Kinetic Analysis of Instep and Side-foot Kick in Female and Male Soccer Players. Procedia Engineering, 147, 214-219. doi: 10.1016/j.proeng.2016.06.216
Sakamoto, K., Numazu, N., Hong, S., & Asai, T. (2016). Kinetic Analysis of Instep and Side-foot Kick in Female and Male Soccer Players. Procedia Engineering, 147, 214-219. doi: 10.1016/j.proeng.2016.06.216
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. Sports Biomech, 4(1), 59-72. doi: 10.1080/14763140508522852
William Roy Barfield, Donald T. Kirkendall, & Yu, B. (2002). KINEMATIC INSTEP KICKING DIFFERENCES BETWEEN ELITE. Journal of Sports Science and Medicine(1), 72-79.
Winter, D. A. (2009). Biomechanics and motor control of human movement: John Wiley & Sons.
Yamanaka, K., Liang, D., & Hughes, M. (1997). An analysis of the playing patterns of the Japan national team in the 1994 World Cup qualifying match for Asia. Science and football III, 221-228.
Zago, M., Motta, A. F., Mapelli, A., Annoni, I., Galvani, C., & Sforza, C. (2014). During an Inside-of-the-Foot Kick in Amateur Soccer Players. RESEARCH METHODS IN SPORTS AND CLINICAL BIOMECHANICS, 42, 46.