研究生: |
方承瑋 Fang, Cheng-Wei |
---|---|
論文名稱: |
探討不同專項運動選手跑步型態 Exploring running gait patterns of different sports background |
指導教授: |
劉有德
Liu, Yeou-Teh |
口試委員: |
謝宗諭
Hsieh, Tsung-Yu 陳尹華 Chen, Yin-Hua 劉有德 Liu, Yeou-Teh |
口試日期: | 2022/06/28 |
學位類別: |
碩士 Master |
系所名稱: |
運動競技學系 Department of Athletic Performance |
論文出版年: | 2022 |
畢業學年度: | 110 |
語文別: | 中文 |
論文頁數: | 55 |
中文關鍵詞: | 相對相位 、角角圖 、量化協調型態 |
英文關鍵詞: | Relative phase, Angle-angle diagram, Quantification of coordination pattern |
研究方法: | 實驗設計法 |
DOI URL: | http://doi.org/10.6345/NTNU202201490 |
論文種類: | 學術論文 |
相關次數: | 點閱:105 下載:20 |
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在成長過程中,跑步為日常生活中時常使用到的一項基礎能力。對於各種
不同專項而言,就算沒有實質上跑步的訓練,但體能訓練時往往都會以跑步的形
式進行,除了田徑短跑運動員外,鮮少專長運動針對跑步型態進行要求。許多技
擊類型項目,要求許多專項技能外,也會透過跑步的方式進行體能,亦或是有氧
訓練,但針對跑步型態並沒有實際的要求。目的:探討短跑運動員與跆拳道運動
員跑步時肢段間協調型態是否會有差異。方法:招募短跑運動員及跆拳道運動員
各十二位,在跑步機上 20 km/hr 速度跑步,以二維攝影,並透過 Simi Motion 標
記左腿二維座標,計算著地步幅及每步時間、以角角圖及相對相位量化肢段間協
調型態,檢驗 2 專長在左腳著地期、騰空期、右腳著地期、第二騰空期表現之
差異。結果:2 專長在每步時間達顯著差異;而在各期各關節最大值與最小值中,
田徑多顯著大於跆拳道;在髖膝及膝踝各期相對相位平均數中皆是田徑顯著大於
跆拳道。從角角圖型態中反映出在膝踝第三期至第四期結束時膝關節持續改變時,
踝關節的變化是最大的。結論:不同專項運動員會因為跑步機的限制以及專項訓
練中產生的跑步效率而有相同著地步幅及不同每步時間的表現;透過兩種協調檢
驗的方式,發現在膝踝關節間第三期至第四期專長間有明顯差異,而這差異來自
於兩組運動員踝關節背屈及伸展的影響。
Running is a basic skill performed in daily life for everyone growing up. In sport training programs, running has often been used to improve athletes’fitness.
However, the patterns of running are rarely demanded in the training program except for the sprinters in track and field. Athletes of combat sports often engage in physical conditioning through running, but they usually don’t pay attention to their running gait patterns. Purpose: to examine the differences in running gait patterns between sprinters and taekwondo players. Methods: Twelve sprinters and twelve taekwondo players were recruited as participants. They ran on the treadmill at a speed of 20 km/hr and videotaped with a highspeed camera. The Simi Motion analysis system was used to digitize the 2D markers on the left leg. Each participant’s foot contact length and the stride duration were calculated. The angle-angle diagrams and the relative phase were used to analyze the coordination patterns of the running gait. The running gait cycle was divided into 4 phases: the left foot landing phase, flight phase, right foot landing phase, and the second flight phase. Results: The sprinters’ stride durations were significant longer than those of the taekwondo players. The sprinters’ joint angles were significantly greater than those of the taekwondo players for most of the running phases. The mean relative phase of hip-knee and knee-ankle couplings of the sprinters were significantly larger than those of taekwondo players for most of the phases. The angle-angle diagrams of the knee-ankle showed the biggest difference between the sprinters and the Taekwondo players at the ankle joint when the knee joint continued to increase from the 3rd to the 4th phase. Conclusions: The similarity in foot contact length and the difference in stride duration between sprinters and taekwondo players indicates the influence of treadmill and the running efficiency of the sprinters. In addition, the difference in the knee-ankle coordination between sprinter and taekwondo players reflect the difference in dorsiflexion and plantarflexion of the ankle joint.
1.中文文獻
徐婉靜、邱靖華、王金成 (1991)。地面上與原地跑步機上的二度空間步態比較。體育學報,(13),211-221。
劉淑華、簡鴻玟 (2006)。國內與國際優秀徑賽百公尺跑者速度之比較分析。運動教練科學,(7),109-115。
劉淑華 (2007)。100公尺跑分段速度參數之相關研究。大專體育學刊,9(2),83-96。
吳燕妮 (2011)。目標設定在跆拳道專項訓練之應用。大專體育,(114),54-60。
王令儀 (2012)。從動態系統之觀點探究跑步動作中的下肢傷害風險。中華體育季刊,26(4),441-447。
陳帝佑、徐明城 (2012)。論述跑步之下肢運動學特徵。彰化師大體育學報,(11),83-93。
余雪安、張家豪、葉良志 (2016)。百公尺途中跑支撐時期地面反作用力的控制與運動表現。運動教練科學,(42),111-120。.
2.英文文獻
Cunningham, R., Hunter, I., Seeley, M. K., & Feland, B. (2013). Variations in running technique between female sprinters, middle, and distance runners. International Journal of Exercise Science, 6(1), 6.
Daniels, J. T. (1985). A physiologist's view of running economy. Medicine and science in sports and exercise, 17(3), 332-338.
Davies, C. T. (1980). Effects of wind assistance and resistance on the forward motion of a runner. Journal of Applied Physiology, 48(4), 702-709.
Elliott, B. C., & Blanksby, B. A. (1976). A cinematographic analysis of overground and treadmill running by males and females. Medicine and science in sports, 8(2), 84-87.
Floría, P., Sánchez-Sixto, A., Ferber, R., & Harrison, A. J. (2018). Effects of running experience on coordination and its variability in runners. Journal of sports sciences, 36(3), 272-278.
Frishberg, B. A. (1983). An analysis of overground and treadmill sprinting. Medicine and science in sports and exercise, 15(6), 478-485.
Hamill, J., van Emmerik, R. E., Heiderscheit, B. C., & Li, L. (1999). A dynamical systems approach to lower extremity running injuries. Clinical biomechanics, 14(5), 297-308.
Lamb, P. F., & Bartlett, R. M. (2017). Assessing movement coordination. In Biomechanical Evaluation of Movement in Sport and Exercise (pp. 22-43). Routledge.
Li, L., van den Bogert, E. C., Caldwell, G. E., van Emmerik, R. E., & Hamill, J. (1999). Coordination patterns of walking and running at similar speed and stride frequency. Human movement science, 18(1), 67-85.
Riley, P. O., Dicharry, J., Franz, J. A. S. O. N., Croce, U. D., Wilder, R. P., & Kerrigan, D. C. (2008). A kinematics and kinetic comparison of overground and treadmill running. Medicine and science in sports and exercise, 40(6), 1093.
Scholz, M. N., Bobbert, M. F., Van Soest, A. J., Clark, J. R., & van Heerden, J. (2008). Running biomechanics: shorter heels, better economy. Journal of Experimental Biology, 211(20), 3266-3271.
Shafizadeh, M., Watson, P. J., & Mohammadi, B. (2013). Intra-limb Coordination in Gait Pattern in Healthy People and Multiple Sclerosis Patients. Clinical Kinesiology (Online Edition), 67(3).
Sheppard, J. M., & Young, W. B. (2006). Agility literature review: Classifications, training and testing. Journal of sports sciences, 24(9), 919-932.
Trowell, D., Phillips, E., Saunders, P., & Bonacci, J. (2021). The relationship between performance and biomechanics in middle-distance runners. Sports Biomechanics, 20(8), 974-984.
Wdowski, M. M., & Gittoes, M. J. (2013). Kinematic adaptations in sprint acceleration performances without and with the constraint of holding a field hockey stick. Sports biomechanics, 12(2), 143-153.