Korean Journal of Applied Biomechanics (한국운동역학회지)

Korean Society of Applied Biomechanics (한국운동역학회)
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Kinematic Analysis of Acopian in Vault

도마종목 Kasamatsu계의 Akopian 기술동작 분석

  • Published : 2006.03.31
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Abstract

The study were to assess technical factors between the high score group and the low score group, from the subjects of 16 male national gymnasts, and to analyze the kinematical characteristic and main technical cause on technique of Akopian's 3D motion analysis of the male vaulting game in 2001 classification championship. The result of this study is this. There were not so much difference between the two groups in term; of the time of board contact, pre-flight, and total performance, but it takes shorter time when the players who are in the high point group take down the board, and they take long time for post-flight(p<.01). The high point group has a longer perpendicular distance in the moment of horse taking off, 0.05m on the average, than the low point group. The high point group shows 0.16m higher on the average than the other group in term; of the height of post-flight(p<.01). In the phase of board contact, the range of horizontal velocity at board take on were $7.66m/s{\sim}7.33m/s$, but there weren't significantly statistic differences between two groups. The hight score group were 0.68m/s faster than the low point group at the horizontal velocity at board take off event(<.05). About the average horizontal velocity of deceleration, AG1(-1.95m/s) reduces the speed more than AG2(-1.57m/s)(p<.05). And the hight score group were 0.37m/s faster than the low point group at the vertical velocity at horse take off event(<.05). When board taking off, the projectile angle of com were $38.7{\sim}37.8degree$ on the average. the comparative groups show almost same results. When horse taking off, the HPVy of the high point group were 37.6 degree which were a little higher than the low point group. The angular velocities of the players who takes on the horse with a right hand and then takes off with a left hand in the high point group were 14.97rad/sec, 10.82rad/sec in the low point group. However, the angular velocity of the players who takes on the horse with a left hand and then takes off on a right hand with the high point group were 14.97rad/sec, 15.56rad/sec in the low point group.

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References

  1. 박종훈(1999). 도마 손 짚고 옆돌아 몸굽혀 뒤 공중돌기 동작의 국면별 역학적 분석, 한국체육대학교 대학원 박사학위 논문.
  2. 우상연(1988). DLT기법을 이용한 동체자체비틀기의 3차원 분석: 1/2비틀어 내리기 동작, 서울대학교 석사학위논문.
  3. 이계산, 성낙준, 최춘덕(1991). 도마운동에서 손짚고 앞돌아 몸접어 180도 틀기 동작에 대한 3차원 분석. 체육과학논총 제 1권 3호
  4. 이동우, 임정수(1998). 유르첸코 뛰기 동작의 분석, 체육과학연구과제종합보고서 체육과학연구원,
  5. 이문표, 신인식, 배성재(1995). 1992년 올림픽 체조 도마 Layout Cuervo동작의 주요 운동학적 변인과 획득점수와의 상관관계, 한국운동역학회지, 제 15권 1호, P11-29.
  6. Abdel-Aziz, Y. I, & Kararah, M. (1971). Direct linear transformation from comparator coordinates object space coordinates in close-range photogra- mmetry. In Proceedings of the Sym- posium on Close- Range Photogrammetry(pp. 1-18). Falls Church, VA: American Society of Photogrammetry.
  7. Dilman, Charles., Cheetham, Phillip., & Smith, Sarah L.(1985). A Kinematic Analysis of Men󰡑s Olympic Long Horse Vaulting. International Journal of sport Biomechanics, 1, 96-110. https://doi.org/10.1123/ijsb.1.2.96
  8. Kwon, Young-Hoo, Fortney, Virginia L., & Shin, In-Sik. (1990). 3-D Analysis of Yurchenko Vault Performed by Female Gymnasts During the 1988 Seoul Olympic Games. International Journal of sport Biomechanics, 6, 157-175. https://doi.org/10.1123/ijsb.6.2.157
  9. Takei, Y.(1988). Techniques used in performing handspring and salto forward tucked in gymnastic valting, International Journal of Sport Biomechanics, 4. 260-281. https://doi.org/10.1123/ijsb.4.3.260
  10. Takei, Y.(1989). Techniques used by Elite Male Gymnasts performing a handspring valult at the 1987 Pan American Games, International Journal of Sport Biomechanics, 6, 29-55.
  11. Takei, Y. (1990). Techniques Used by Elite Women Gymnasts Performing the Handspring Vault at the 1987 Pan American Games. International Journal of sport Biomechanics, 6, 29-55. https://doi.org/10.1123/ijsb.6.1.29
  12. Takei, Y., & Kim, E.J. (1990). Techniques Used in Performing the Handspring and Salto Forward Tucked Vault at the 1988 Olympic Games. International Journal of sport Biomechanics, 6, 111-138 https://doi.org/10.1123/ijsb.6.2.111
  13. Takei, Y. (1991). A Comparison of Techniques Used in Performing Men's Compulsory Gymnastic Vault at the 1988 Olympic. International Journal of sport Biomechanics, 7, 54-75. https://doi.org/10.1123/ijsb.7.1.54
  14. Takei, Y. (1992). Blocking and Postflight Techniques of Male Gymnastic Performing the Compulsory Vault at the 1988 Olympic. International Journal of sport Biomechanics, 8, 87-110. https://doi.org/10.1123/ijsb.8.2.87
  15. Takei, Y., Blucker, Erik P., Hubert Dunn, J., Myers, Scott A., & Fortney, Virginia L. (1996). A Three-Dimensional Analysis of the Men's Compulsory Vault Performed at the 1992 Olympic Games. Journal of Applied Biome- chanics, 12, 237-257.
  16. Takei, Y.(1998). Three-dimensionnal analysis of handspring with full turn vault; Deterministic model, coaches′beliefs, and judges′scores, Journal of Applied Biomechanics, 14. 190-210. https://doi.org/10.1123/jab.14.2.190
  17. Takei, Y.(2000). Techniques used in high-and low-scoring Hecht Vaults Performed at the 1995 World Gymnastics championships, Journal of Applied Biomechanics, 16, 180-195. https://doi.org/10.1123/jab.16.2.180

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