研究生: |
趙孟哲 Meng-Zhe, Zhao |
---|---|
論文名稱: |
12碼罰球足內側射門在踢向 不同目標之踢球腳肌電活化程度研究 The kicking leg muscle’s EMG activation patterns during kicking towards different objects in penalty kick by using inside kick |
指導教授: |
蔡虔祿
Tsai, Chien-Lu |
學位類別: |
碩士 Master |
系所名稱: |
體育學系 Department of Physical Education |
論文出版年: | 2014 |
畢業學年度: | 103 |
語文別: | 中文 |
論文頁數: | 72 |
中文關鍵詞: | 射門 、命中率 、運動學 、肌電圖 |
英文關鍵詞: | penalty kick, success rate of goal, kinematic, EMG |
論文種類: | 學術論文 |
相關次數: | 點閱:668 下載:18 |
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 |
足球運動中,最常見的射門方式是足部射門。而足部射門方式尚能分為足內側射門與正足背射門等兩種方式,由於十二碼罰球的判決往往影響一場比賽的勝負,因此提高12碼命中率的議題變得很重要。在兩種不同的射門方式中,足內側射門的精準度較高於正足背,精英的選手往往將足球踢向四個角落,出球速度並不快,讓守門員難以防守,不過有時因為肌肉過度用力導致錯失得分機會。本研究目的以八名大專足球一級聯賽選手為實驗對象,目的在探討選手在進行12碼罰球時,踢向不同目標的踢球腳肌電活化程度及其運動生物力學參數;以Vicon Motion Capture System(250Hz)擷取人體射門動作反光球資料,經由Visul 3D軟體計算運動學參數,同步利用Noraxon無線肌電圖系統(1500Hz)擷取人體肌電訊號,並以HiSpec 4(500Hz)高速攝影機側拍射門動作來做動作分期;所以有參數均利用SPSS20.0版本統記套裝軟體進行計算,以無母數弗里曼二因子變異數分析來進行統計考驗,顯著水準訂為α=.05。結果發現:一、運動學的資料中在踢向上目標(目標1、目標3)的髖關節有較大的屈曲角度變化、膝關節有在後擺期有較大的屈曲角度變化、觸球期有較大的伸展角度變化、踝關節則沒有太多的變化。二、肌電圖資料中在踢向上方目標(目標1、目標3)股直肌、股外側肌、股內側肌有較大的肌電活化訊號。建議:在肌肉的訓練,通常不會只針對某一肌群訓練,幾乎都下肢一起作訓練但本實驗也發現到一些小肌肉群如:脛前肌與腓腸肌也有一定程度上的收縮提供了腳踝穩定,進而增加命中率,因此藉由本實驗提供的數據與建議,能夠提供給選手與教練參考,進而善用與了解該部位肌肉收縮的特性,增加12碼罰球的命中率。
In football, the most common way of shooting is by foot. Otherwise, the way of shooting can be divided into two patterns, which are full step kick and inside kick. As penalty kick always determinates the outcome of a game, Thus, how to raise the success rate of goal becomes an important issue. Therefore, most of the elite football players shoot by inside kick and aim the four corners of the goal, Even though the speed of the ball is not very fast, the player still can field the goal, which is hard for goal keeper to safe. But sometimes the players may miss the chance of fielding the goal, because of their muscle contract too excessive. The subjects of this study were eight colleage UFA 1 division players.The mark trajectories of body motion were collected by the VICON Motion Capture System(250Hz). Using Visaul 3D software to calculate the kinematic data.In the meanwhile, collecting the EMG data by Noraxon wireless EMG system(1500Hz)and also use HiSpec 4 high-speed video camara(500Hz) to record and calculate the data by MyoReserch XP Master Edition software. All the parameters were tested by Friedman two-way analysis of variance nonparametric statistical test by SPSS20.0, the significant level as α=.05.The results are:1.there is more hip joint angle flex when during accurate kick to the top target(target 1 and 3),and there is more knee joint angle flex during accurate kick to the top target(target 1 and 3) in the backswing.2.there is higher rectus femoris,vastus lateralis and,svastus medialis EMG activity during accurate kick to the top target(target 1 and 3).Suggestion: In this study, we found that the shooting action, in addition to the rectus femoris, vastus lateralis, vastus medialis and other large muscle groups, such as the anterior tibialis and gastrocnemius muscle and other smaller muscles will not only contract but also provide stability of ankle, and then increase the success rate of goal. Therefore this study may provide some data, to the coach or the players in order to use and understand of the characteristics of the site of muscle contraction, and then increase success rate of goal in penalty kick.
一、中文部分
林正常(1996)。運動生理學實驗指引。台北市:師大書苑
李文森(1992)。解剖生理學。臺北市:華杏出版股份有現公司。
許樹淵(1997)。運動生物力學。臺北市:合記圖書。
陸仲元(1999)。足球。台北市:國家出版社。
金鐘 (2002)。世界盃足球賽與商業化。國民體育季刊,31卷3期,75-78頁。
蔡尚明(2002)。足球腳背踢球動作技術分析。華夏學報,36,15729-15741。
沈進益(2003)。不同助跑角度足球定位踢遠之運動學分析。未出版碩士論文,國立臺灣師範大學,臺北市。
蔡宗晏、王進華(2007)。淺談肌電圖在運動科學中的應用。大專體育,90,155-161。
二、英文部分
Athanasios Katis , Emmanouil Giannadakis , Theodoros Kannas , Ioannis Amiridis , leftherios Kellis , Adrian Lees. (2013). Mechanisms that influence accuracy of the soccer kick. Journal of Electromyography and Kinesiology 23;25–131
Brophy RH, Backus SI, Pansy BS, Lyman S, Williams RJ. (2007). Lower extremity muscle activation and alignment during the soccer instep and side-foot kicks. Journal of Orthopaedic & Sports Physical Therapy ;37:260–8.
Barfield, W. S.,W. E. Garrett (Eds.),D. T. Kirkendall (Eds.)(2000).Exercise and sport science.Philadelphia:Lippincott Williams & Wilkins.
Dorge HC, Andresen TB, Sorensen H, Simonsen EB, Aagaard H, Dyhre-Poulsen. (1999). EMG activity of the illiopsoas muscle and leg kinetics during the soccer place kick. Scandinavian Journal of Medicine & Science in Sports ;9:195–200.
Finnoff, J.T., Newcomer, K. and Laskowski, E.R. (2002). A valid and reliable method for measuring the kicking accuracy of soccer players. Journal of Science and Medicine in Sport 5(4), 348-353.
Isokawa, M. & Lees, A. (1988). A biomechanical analysis of instep kicks motion in soccer.
In: Science and football. (Edited by Reilly T, Lees A, Davids K, Murphy W), pp-499-
455), London, UK: E. and F. N. Spon
Katis,A., Giannadakis,E., Kannas,T., Amiridis,I., Kellis,E., Lee,A. (2013) Mechanisms that influence accuracy of the soccer kick. Journal of Electromyography and Kinesiology;23:125-131.
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, 1017-1028
Kellis, E. & Katis, A. (2007). Biomechanical characteristics and determinants of instep soccer kick, Journal of Sports Science and Medicine, 6, 154-165.
Lees, A. & Noland, L. (1998). The biomechanics of soccer: a review. Journal of Sport Sciences, 16, 211-234.
Proft,D.E.,Clarys,J.P.,Bollens,E.,Cabri,J.,&Dufour,W.(1988).Muscle activity in the soccer kick .In T . Reilly ,A. Lees, K. Davis ,&W .j. Murphy (Eds.),science and football(pp.429-433)New York: E&FN Spon.
Reilly, T. and Thomas, V. (1976) A motion analysis of work-rate in different positional roles in professional football match-play. Journal of Human Movement Studies 2, 87-89
Scurr J, Abbott V, Ball N. (2011). Quadriceps EMG muscle activation during accurate soccer instep kicking. Journal of Sport Sciences ;29:247–51.
Sterzing, T., Lange, J. S., Wächtler, T., Müller, C. &; Milani, T.L. (2009). Velocity and accuracy as performance criteria for three different soccer kicking techniques, 27. International Society of Biomechanics in Sports Conference, Limerick, Ireland, 243-246.