Korean Journal of Applied Biomechanics (한국운동역학회지)

Korean Society of Applied Biomechanics (한국운동역학회)
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Analysis of the Ground Reaction Force of Arm Landing during Sports Aerobics

스포츠 에어로빅스 팔착지 동작의 지면 반력 분석

  • Published : 2002.04.30
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Abstract

The purpose of this study is to analyze the ground reaction force of arm landing on arm and leg during sports aerobics. Subjects of this study were total 10 players of 5 males and 5 females who have are domain sports aerobics medalists more than the third place in national tournaments. The subjects jumped between the two ground reaction force analyzers, while landing their right hand on the front platform(#1) and their right leg on the rear platform(#2), and the data frequency was set to 200Hz. Findings of this study are as follows; More than 3 times of impact peak force of vertical reaction force acted on arm joint than on leg joint. And, when ground reaction force on foot increased, ground reaction force on hand decreased. 3 impact peaks of curve of ground reaction force were found - Impact Peak 1 incurred on the time the palm lands on the ground, Impact Peak 2 absorbing shock secondarily on wrist joint, and Active Peak incurred on the time of holding the weight while pushing out the severly bent elbow joint.

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References

  1. 권영후 (1991). Kwon GRF(Ground Reaction Force) Analysis Package Version, 1.0. User's Reference Manual.
  2. 김철준 (1993). 에어로빅댄스 손상의 원인과 그 예방을 위한 운동처방. 한국에어로빅스 건강과학협회 창립4주년 기념학술세미나. pp.29-34.
  3. 김철준, 이옥주, 이영숙, 김영숙(1993). 에어로빅댄스 손상의 임상적 내용과 원인. 대한 스포츠 의학회지, Vo1.No.1
  4. 오정환 (1998). 수직점프 방법에 따른 지면반력 형태 분석. 제 36회 한국체육학회학술발표회, 575-581.
  5. 윤희중, 이연종, 이경식, 유실, 정남주 (1997). 수직점프 수행시 두 발의 동시.비동시 스텝에 따른 운동학적 특성. 한국체육대학교 체육과학연구소 논문집, 16(1), 11-20.
  6. 이세용 (2000). 높이변화에 따른 착지시 하지 관절의 기계적 분석. 한국운동역학회 정기학술대회, 1, 1-15.
  7. 이영숙외(1990). 에어로빅스 운동과학. 보경문화사.
  8. 임규찬 (1997). 에어로빅스 스텝 박스의 높이가 슬관절 모멘트에 미치는 영향. 한국운동역학회지, 7(2), 45-64.
  9. 하권익 외 3인 (1985). 운동선수의 스포츠손상에 대한 임상적 분석. 대한스포츠의학회지, 3(1), 15-19.
  10. Aragon-Vargas, L. F., & Gross, M. M. (1997). Kinesiological factors in vertical jump performance: Differences Within Individuals. Journal of Applied Biomechanics, 1, 45-65.
  11. Barrier, J., Kovacs, I., Racz, L., Tkhany, J., DeVita, P., & Hortobagyi, T. (1997). Differential effects of toe versus heel landing on lower extremity joint kinetics. Medicine and Science in Sports and Exercise, 29(5), 233.
  12. Bobbert, M. F., Huijing, P. A., & van Ingen Schenau, G. J. (1987). Drop jumping II, The influence of dropping height on the biomechanics of drop jumping. Medicine and Science in Sports and Exercise, 19(4), 339-346.
  13. Bobbert, M. F., Huijing, P. A., & Van Ingen Schenau, G. J.(1987). Drop jumping I, The influence of dropping technique on the biomechanices of drop jumping. Medicine and Science in Sports and Exercise, 19(2), 332-338.
  14. DeVita, P., & Skelly, W. A. (1992). Effect of landing stiffness on joint kinetics and energetics in the lower extremity. Medicine and Science in Sports and Exercise, 24(1), 108-115.
  15. Dufek, J. S., & Bates, B. T. (1990). The evaluation and prediction of impact force during landings. Medicine and Science in Sports and Exercise, 22, 370-376.
  16. Gross, T. S., & Nelson, R. C. (1988). The shock attenuation role of the ankle during landing from a vertical jump. Medicine and Science in Sports and Exercise, 20(5), 506-514.
  17. Hamill. J., & Kathleen, M. K. (1995). Biomechanical basis of Human Movement. University of Massachusetts, 23-31.
  18. McCaw, S. T., & Bates, B. T. (1991). Biomechanical implications of mild leg length inequality, British Journal of Sports Medicine, 25, 10-13. https://doi.org/10.1136/bjsm.25.1.10
  19. McNitt-Gray, J. L., Eagle, J. P., Elkins, S., & Munkasy, B. A. (1996). Modifications in joint kinetics during stop and go landing movements under fatigued and non-fatigued conditions. Presented at the 20th annual meeting of American Society of Biomechanics, Atlanta, Georgia.
  20. Michaud, T. J., Rodriguez-Zayas, J., Armstrong, C., & Hartnig, M. (1993). Ground reaction forces in high impact and low impact aerobic dance. Journal of Sports Medicine Physical Fitness, 33(4), 359-366.
  21. Panzer, V. P., Wood, G. A., Bates, B. T., & Mason, B. R. (1988). Lower Extremity Loads in Landings of Elite Gymnasts. Biomechanics XI-B(G.deGroot, A. Hollender, P. Huijing, G. J., van Ingen schenau, Eds), Amsterdam, Free University Press.
  22. Pratt, D. J. (1988). Mechanism of shock attenuation via the lower extremity during running. Clinical Biomechanics, 4, 51-57. https://doi.org/10.1016/0268-0033(89)90068-5
  23. Radin, E. L., Paul, I. L., & Rose, R. M. (1975). Mechanical factors in the aetiology of osteoarthrosis. Annals Rheumatic Disease, 34, 132-133.
  24. Schot, P. K., Bates, B. T., & Dufek, J. S. (1994). Bilateral performance symmetry during drop landing : a kinematic analysis. Medicine and Science in Sports and Exercise, 26, 1153-1159.
  25. Simpson, K. J., & Bates, B. T. (1990). The effects of running speed on lower extremity joint moments generated during the support phase. International Journal of Sports Biomechanics, 6, 309-324. https://doi.org/10.1123/ijsb.6.3.309
  26. Stacoff, A., Kaelin, X., & Stuessi, E. (1987). The impact in landing after a volleyball block. In Proceedings of the XIth International Congress of Biomechanics, Amsterdam, Netherlands.
  27. Winter, D. A. (1983). Moments of force and mechanical power of jogging. Journal of Applied Biomechanics, 16, 91. https://doi.org/10.1016/0021-9290(83)90050-7
  28. Zhang, S. (1996). Selected aspects of biomechanical and neuromuscular responses to landing performance. unpublished doctoral dissertation, Oregon state of University.

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