研究生: |
莊鈞凱 Chuang, Chun-Kai |
---|---|
論文名稱: |
八週複合式訓練對跆拳道品勢速度力量表現之影響 Effects of Eight Weeks of Complex Training on Speed and Power of Taekwondo Poomsae |
指導教授: |
何仁育
Ho, Jen-Yu |
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: | 2015 |
畢業學年度: | 103 |
語文別: | 中文 |
論文頁數: | 50 |
中文關鍵詞: | 跆拳道品勢表現分數 、阻力訓練 、增強式訓練 、動作加速度 、爆發力 |
英文關鍵詞: | Poomsae presentation scores, resistance training, plyometric training, acceleration of movements, power |
論文種類: | 學術論文 |
相關次數: | 點閱:192 下載:65 |
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 |
背景:跆拳道品勢競賽動作標準性逐漸統一,技術分數已無差異性,導致表現分數在品勢競賽上成為比賽勝負之關鍵。表現分數的高低,主要以選手的速度力量 (爆發力) 來判定,突顯爆發力對跆拳道品勢的重要性。研究指出,阻力訓練 (resistance training) 和增強式訓練 (plyometric training) 可提升爆發力表現,後續研究發現將兩種訓練組合而成的複合式訓練 (complex training) 提升效益更佳。目的:探討八週複合式訓練介入對品勢選手相關肌群的最大肌力 (1RM)、爆發力 (功率峰值)、整體品勢動作合加速度與速度力量分數的影響,以及整體品勢動作合加速度與速度力量分數的相關性。方法:14名優秀大專跆拳道品勢選手 (10男4女),經配對後分成2組:複合式訓練加上跆拳道品勢專項訓練組 (n=7, EG) 與跆拳道品勢專項訓練控制組 (n=7, CG),進行八週的訓練。所有參與者在訓練前後進行仰臥推舉、蹲舉及滑輪下拉的最大肌力測驗,下蹲垂直跳與爆發伏地挺身的爆發力測驗,並使用三軸加速規配戴在參與者四肢,在展演「高麗」品勢同時請三位品勢裁判評分,取得整體品勢動作合加速度以及速度力量分數的成績。並以混合設計二因子變異數分析,比較兩組別上下肢最大肌力、爆發力、整體品勢動作合加速度、速度力量分數之差異,並以皮爾森積差相關分析參與者整體品勢動作合加速度與速度力量分數的相關性。結果:八週複合式訓練後,EG組仰臥推舉、蹲舉、滑輪下拉之最大肌力、下蹲垂直跳與爆發伏地挺身的功率峰值以及速度力量分數顯著提升。另外,訓練後蹲舉、滑輪下拉之最大肌力以及速度力量分數 (EG:1.50 ± 0.08分;CG:1.38 ± 0.08分),EG組也顯著優於CG組。但整體品勢動作合加速度兩組別間無顯著差異,且整體品勢動作合加速度與速度力量分數兩者無相關性 (r =.206, p>.05)。結論:八週複合式訓練可以有效提升跆拳道品勢選手上下肢最大肌力、功率峰值以及速度力量分數,但對於整體品勢動作合加速度並沒有提升效果。此外,整體品勢動作合加速度與裁判給予評判速度力量分數沒有任何相關性,因此動作合加速度無法作為速度力量表現有無增加的指標。
Background: While technical accuracy of Poomsae technique has been similar among athletes, presentational performance of Poomsae technique becomes a key factor in a competition. Presentation scores are mainly dependent on speed and power give by referees. Therefore, power is important in Taekwondo Poomsae. Studies have indicated that resistance training and plyometric training can improve power performance. The combination of these two training methods, referred as complex training, can further improve power performance. Purpose: This study aimed to determine the effects of eight weeks of complex training on strength, peak power, acceleration of movements, speed and power scores, and correlation between acceleration of movements and speed and power scores. Methods: Fourteen elite college Poomsae athletes (10 men and 4 women) were assigned to complex training plus Poomsae training group (n=7, EG) and Poomsae training control group (n=7, CG). Before and after training, subjects performed upper and lower limb strength and power. Acceleration of movements and speed and power scores were also obtained during 「Koryo」 Poomsae. Two-way mixed design ANOVA was used to determine the differences in these measurements between two groups. Pearson correlation analysis was used to determine correlation between acceleration of movements and speed and power scores. Results: After training, strength in bench press, squat, and lat pull down, upper and lower limb peak power, and speed and power scores were significantly improved in EG group. However, strength in squat and lat pull down, and speed and power scores (EG:1.50 ± 0.08;CG:1.38 ± 0.08) in EG group was significantly greater than CG group. Acceleration of movements was not significantly increased in both groups after training, and no correlation between acceleration of movements and speed and power scores was observed (r =.206, p>.05). Conclusion: Eight weeks of complex training may enhance upper and lower limb strength and power, and speed and power scores for Poomsae athletes. However, acceleration of movements may not be improved. Furthermore, while there is no correlation between acceleration of movements and speed and power scores, acceleration of movements may not be a good indicator of speed and power scores.
中華民國跆拳道協會 (2013)。品勢講義。載於世界跆拳道聯盟 (主編),世界跆拳道聯盟品勢比賽規則及釋義 (頁45)。台北市:中華民國跆拳道協會。
王泠、李鴻祺 (2003)。增強式肌力訓練對大專女子籃球選手彈跳能力之影響。大專體育學刊,5(1),231-237。
吳慧君、羅興樑 (2009)。複合式訓練對肌力及爆發力之影響。運動生理季體能學報,9,1-8。
吳慧君、鐘雨純、彭武村、羅興樑、陳竑廷 (2011)。複合式訓練對籃球選手下肢肌力、速度及爆發力之影響。大專體育學刊,13(2),173-180。
吳鴻志、鐘博全、陳璽煌 (2012)。無線微機電感測器系統應用於沙灘手球騰空接球射門動作分析。華人運動生物力學期刊,7,168-172。
吳顥照 (2003)。複合式訓練的理論與應用。中華體育季刊,17(3),1-10。
李政霖、莊榮仁、宋景宏、劉宇 (2003)。跆拳道優秀運動員下肢加速能力之生物力學分析。運動生物力學彚刊,1,126-127。
邱共鉦、蔡明志 (2007)。臺灣跆拳道競技發展時期劃分與演進過程之探討。台灣體育發展學術研討會論文集 (頁362-373) 。臺北縣:輔仁大學體育學系編。
邱敏舜、鴻宗穎、龔榮堂、湯文慈 (2012)。四週上肢肌力訓練對大專甲組棒球員等速肌力與揮棒速度之影響。華人運動生物力學期刊,7,218-221。
姜義村、周桂名、陳美莉 (2010)。世界排名制度對國際跆拳道運動發展影響之初探。臺大體育學報,19,55-64。
唐涌 (2012)。從跆拳道品勢的評分標準論影響其演練水平的因素。當代體育科技,2(12),87-90。
徐吉德、徐瑞洪、劉俊概 (2005) 。牽張-收縮機制應用於拔河肌力訓練之可行性探討。中華體育季刊,14(4) ,78-83。
袁新國、易康、邢芳 (2011)。競技武術套路與跆拳道品勢競技特徵的發展趨勢分析。長江大學學報(自然版) 理工上旬刊,8(11),120-122。
陳美宏 (2012)。無線微機電感測器運用於跆拳道旋踢之動作分析 (未出版碩士論文)。樹德科技大學,高雄市。
陳敦禮 (1996)。淺談PLYOMETRICS訓練。體育與運動,98,49-53。
陳九州、鄭鴻文 (2000)。增進跳躍能力、瞬發力以及速度的有效方法-複合訓練之介紹。大專體育,51,103-108。
楊明達、詹貴惠(2005)。增強式訓練的效果與應用。大專體育,81,37-44。
劉怡伶 (2008)。跆拳道品勢太極1-8場動作意涵分析之研究 (碩士論文)。臺灣博碩士論文知識加值系統。
劉豐源 (2009)。跆拳道品勢運動之參與動機、專門化與深度休閒關係之研究 (碩士論文)。臺灣博碩士論文知識加值系統。
劉豐源、洪谷松 (2010)。跆拳道品勢運動深度休閒特質之研究。運動與遊憩研究,5(1),106-119。
鄭景峰(2002)。增強式訓練的理論與應用。中華體育季刊,60,36-45。
鄭雅如、趙榮瑞 (2012)。世大運新增項目:跆拳道品勢初探。大專體育,122,9-17。
鄭雅如、趙榮瑞 (2013)。2011年世界跆拳道品勢選拔賽成績差異-以女子個人14-18歲決賽為例。國立臺灣體育運動大學學報,3,65-81。
諾達運動文化編輯組 (2007)。跆拳道精華技法。台北市:諾達運動行銷。
蘇睦敦 (2005)。傳統式與複合式的重量訓練對排球運動員的肌力和瞬發力之效果研究。國立體育學院論叢,16(1),277-289。
American College of Sports Medicine. (2009). Position stand: progression models in resistance training for healthy adults. Medicine & Science in Sports & Exercise, 41(3), 687-708.
Baechle, T. R., & Earle, R. W. (2000). Essentials of strength training and conditioning (2nd ed.). Champaign, IL: Human Kinetics.
Baker, D. (2003). Acute effect of alternating heavy and light resistances on power output dur-ing upper-body complex power training. The Journal of Strength and Conditioning Re-search, 17, 493–497.
Behm, D. G. (1995). Neuromuscular imp1ications and applications of resistance training. Journal of Strength and Conditions of Resistance Training, 9(4), 264-274.
Chu, D.A. (1992). Jumping Into Plyometrics. Champaign, Ill.: Leisure Press.
Chu, D.A. (1996). Explosive Power and Strength: complex training for maximum re-sults.Champaign, Ill.: Human Kinetics Publishers.
Dollard, M.. D. (1985). Plyometric ballistic conditioning. Aerobics and Fitness, 3(2), 33-35.
Ebben, W.P., & Watts, P.B. (1998). A review of combined weight training and plyometric trainingmodes: complex training. Strength and Conditioning, 20(5), 18-27.
Epley, B. Poundage chart. Boyd Epley workout. Lincoln, NE. 1985.
Güllich, A., Schmidtbleicher, D. (1996). MVC-induced short-term potentiation of explosive force. New Stud Athl, 11, 67–81.
Gerald, T. M., Nicholas, A. R., Jay, R. H., Avery, D. F., Jie, K., Aristomen, C. (2008). The ef-fects of combined ballistic and heavy resistance training on maximal lower- and up-per-body strength in recreationally trained men. The Journal of Strength and Conditioning Research, 22(1), 132-139.
Gossen, ER., Sale, DG. (2000). Effect of postactivation potentiationon dynamic knee exten-sion performance. European Journal of Applied Physiology, 83(6), 524–530.
Hammett, J. B., & Hey, W. T. (2003). Neuromuscular adaptation to short-term (4 weeks) bal-listic training in trained high school athletes. The Journal of Strength and Conditioning Research, 17(3), 556-560.
Ioannis, G. F., Athanasios, Z. J., Leontsini, D., Kyriakos, T., Aggelousis, N., Kostopoulos, N., et al. (2000). Valuation of plyometric exercise training, weight training, and their com-bination on vertical jumping performance and leg strength. The Journal of Strength and Conditioning Research, 14(4), 470-476.
James, C. R., & Robert, C. F., (1999). High-powered plyometrics. Champaign: Human Kinet-ics.
Juárez, D., González-Ravé, J. M., & Navarro, F. (2009). Effects of complex vs non complex training programs on lower body maximum strength and power. Isokinetics and Exercise Science, 17(4), 233-241.
Kazemi, M., De Ciantis, MG., Rahman, A. (2013). A profile of the Youth Olympic Taekwondo Athlete. J Can Chiropr Assoc, 57(4), 293-300.
Kukkiwon. (2006). Taekwondo textbook. Seoul, Korea: O-sung.
Kraemer, W. J., & Ratamess, N. A. (2000). Physiology of resistance training: current issues. Orthop. Phys. Therapy Clin. North Am.: Exerc. Tech. 9:4. Philadelphia: W. B. Saunders.
Komi, P. V. (2000). Stretch-shortening cycle: a powerful model to study normal and fatigued muscle. Journal of Biomechanics, 33, 1197-1206.
Kraemer, W. J., & Fry, A. C. (1995). Strength testing: development and evaluation of meth-odology. In: P. J. Maud, C. Foster, eds. Physiological assessment of human fitness. Champaign, IL: Human Kinetics.
Lyttle, A., Wilson, G., Ostrowski, K. (1996). Enhancing performance: Maximal power versus combined weights and plyometric training. The Journal of Strength and Conditioning Research, 10, 173-179.
Luebbers, P. E., Potteiger, J. A., Hulver, M. W., Thyfault, J. P., Capper, M. J., & Lockwood, R. H. (2003). Effects of plyometric training and recovery on vertical jump performance and anaerobic power. The Journal of Strength and Conditioning Research, 17(4), 704-709.
Mangine, G. T., Ratamess, N. A., Hoffman, J. R., Faigenbaum, A. D., Kang, J., & Chilakos,(2008). The effects of combined ballistic and heavy resistance training on maximal lower-and upper-body strength in recreationally trained men. The Journal of Strength and Conditioning Research, 22(1), 132-139.
Macdonald, C. J., Lamont, H. S., & Garner, J. C. (2012). A comparison of the effects of 6 week of traditional resistance training, plyometric training, and complex training on measures of strength and anthropometrics. Journal of Strength and Conditioning Re-search, 26(2), 422-431.
Manolopoulos, E., Papadopoulos, C., Salonikidis, K., Katartzi, E., & Poluha, S. (2004). Strength training effects on physical conditioning and instep kick kinematics in young amateur soccer players during preseason. Percept Mot Skills, 99, 701-710.
Newton, R. U. & Kraemer, W. J. (1994). Developing explosive muscular power: Implications for a mixed methods training strategy. Strength and Conditioning. October, 20-31.
Rassier, DE., Herzog, W. (2002). Force enhancement following an active stretch in skeletal muscle. J Electromyogr Kinesiol, 12(6), 471-477.
Robbins, D. W., Young, W. B., Behm, D. G., & Payne, W. R. (2009). Effects of agnist-antagonist complex resistance training on upper body strength and power devel-opment. Journal of Sports Sciences, 27(14), 1617-1625.
Rahimi, R., & Behpur, N. (2005). The effects of plyometric, weight and plyometric-weight training on anaebrobic power and muscular strength. Education and Sports, 3(1), 81-91.
Santos, E. J., & Janeira, M. A. (2008). Effects of complex training on explosive strength in adolescent male basketball players. Journal of Strength & Conditioning Research, 22(3), 903-909.
Stemm, J. D., & Jacobson, B. H. (2007). Comparison of land- and aquatic-based plyometric training on vertical jump performance. The Journal of Strength and Conditioning Re-search, 21(2), 568-571.
Sharkey, B. J., Gaskill, S. E. (2006). Sport Physiology for Coaches. Champaign, IL: Human Kinetics.
Sedano, S., Vaeyens, R., Philippaerts, RM., Redondo, JC., de Benito, AM., & Cuadrado, G. (2009). Effects of lower-limb plyometric training on body composition, explosive strength, and kicking speed in female soccer players. J Strength Cond Res, 23, 1714-1722.
Toumi, H., Best, T. M., Martin, A., & Poumarat, G. (2004). Muscle plasticity after weight and combined (weight + jump) training. Medicine and Science in Sports and Exercise, 36(9), 1500-1588.
Van Cutsem, M., Duchateau, J., & Hainaut, K. (1998). Changes in single motor unit behavior contribute to the increase in contraction speed after dynamic training in humans. J Physiol, 513, 295-305.
World Taekwondo Federation. (2003). World Taekwondo federation poomsae competition rules & interpretation. Seoul, Korea: Author.
World Taekwondo Federation. (2011). World Taekwondo federation poomsae competition rules & interpretation. Seoul, Korea: Author.
Wilmore, J. K., & D.L. Costill. (1994). The physiology of Sport and Exercise, United States., Human Kinetics.
Wilkerson, G. B., Colston, M. A., Short, N. I., Neal, K.L., Hoewischer, P. E., & Pixley, J. J. (2004). Neuromuscular changes in female collegiate athletes resulting from a plyometric jump-training program. Journal of Athletic Training, 39(1), 17-23.
Wilson, G. J., Newton, R. U. , Murphy, A .J., & Humphries, B. J. (1993). The optimal training load for the development of dynamic athletic performance. Medicine and Science in Sports and Exercise, 25(11), 1279-1286.
Zehr, EP., & Sale, DG. (1994). Ballistic movement: muscle activation and neuromuscular ad-aptation. Can J Appl Physiol, 19, 363-378.