Browse > Article
http://dx.doi.org/10.12925/jkocs.2022.39.5.701

Effects of visual selection and rotation order on take-off and landing during sequential rotational jumping  

Woo, Byung-Hoon (Department of Physical Education, Kyonggi Univ.)
Publication Information
Journal of the Korean Applied Science and Technology / v.39, no.5, 2022 , pp. 701-709 More about this Journal
Abstract
The purpose of this study was to compare the differences according to the visual selection and rotation order during sequential rotational jump for female dancers of a Korean ballet company by classifying them into take-off and landing sections. 10 subjects (age: 26.0±2.9 yrs, height: 163.4±3.3 cm, weight: 46.8±3.6 kg, ballet career: 12.3±5.9 yrs) participated in the study. Using a 3D motion analyzer and a force platform, the height of the body center and the ground reaction force during take-off and landing were measured. According to the visual condition (using both eyes, using left eye, using right eye) and rotation order (first rotation, second rotation), it was analyzed through repeated measurement two-way analysis. Height of the CM was higher in the first jump. In take-off, Fx was lateral force of left foot and medial force of right foot were strong in second rotation, and Fy was forward force was strong in first rotation of right foot. Fz was no significant. In landing, Fy showed backward force was strong when landing the second time from the left foot, and the backward force was strong when using the left sight from the right foot. Fz was strong on the second landing on the left foot and the first landing on the right foot.
Keywords
Rotation; Sequential Jump; Ground Reaction Force; Visual Selection; Rotation Order;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 K. Laws, A. Sugano, "Physics and the art of dance: Understanding movement(2nd ed.)". New York, NY: Oxford University Press, (2008).
2 T. Heinen, K. Velentzas, P. M. Vinken, "Analyzing gaze behavior in complex (aerial) skills". International Journal of Sport Science and Engineering, Vol.6, No.3 pp. 165-174, (2012).
3 J. M. Hondzinski, W. G. Darling, "Aerial somersault performance under three visual conditions". Motor Control, Vol.5, No.3 pp. 281-300, (2001).   DOI
4 J. J. Gibson, "The ecological approach to visual perception". Boston: Houghton Mifflin, (1979).
5 J. M. Schmit, D. L. Regis, M. A. Riley, "Dynamic patterns of postural sway in ballet dancers and track athletes". Experimental Brain Research, Vol.163, No.3 pp. 370-378, (2005).   DOI
6 E. H. Kim, G. B. Lee, K. C. Lee, "Analysis of the ballet pirouette en de hors according to the number of turn". Korean Journal of Sport Biomechanics, Vol.11, No.2 pp. 217-230, (2001).
7 B. H. Woo, S. H. Suh, "Kinematic analysis of fouette en dehors on rotation stage in ballet". Journal of Korean Physical Education Association for Girls and Women, Vol.24, No.3 pp. 1-12, (2010).
8 S. C. Plagenhoef, F. G. Evans, T. Abdelnour, "Anatomical data for analyzing human motion". Research Quarterly for Exercise and Sports, Vol.54, No.2 pp.169-178, (1983).   DOI
9 D. H. Kim, "The effect of fatigue in continuous jump on kinematics and kinetics variables". Unpublished Master's Thesis, Kookmin University, Seoul, Korea, (2021).
10 J. M. So, Y. J. Kim, J. H. Lee, J. H. Seo, Chung, K. K. Kim, "The analysis of lower extremities injury on depth jump". Korean Journal of Sport Biomechanics, Vol.15, No.1 pp. 127-142, (2005).   DOI
11 R. A. Denardi, U. C. Correa, "Effects of instructional focus on learning a classical ballet movement, the pirouette". Journal of Dance Medicine & Science, Vol.17, No.1 pp. 18-23, (2013).   DOI
12 S. C. Jo, "Effects of non-visual condition on lower extremity movement and ground reaction forces during drop landing". Journal of Coaching Development, Vol.8, No.1 pp. 99-107, (2006).
13 J. M. Shin, "Kinematic and kinetic differences during the landing phase between drop landing and drop jumping". Journal of Sport and Leisure Studies, Vol.67, pp. 467-477, (2017).   DOI
14 B. Sidaway, J. McNitt-Gray, G. Davis, "Visual timing of muscle preactivation in preparation for landing". Ecological Psychology, Vol.3, pp. 253-264, (1989).   DOI
15 A. Stacoff, X. Kaelin, E. Stuessi, "Impact in landing after a volleyball block". In Biomechanics XI, de Groot G et al.(eds). Amsterdam: Free University Press, pp 694-700, (1988).
16 D. V. Lee, R. M. Walter, S. M. Deban, D. R. Carrier, "Influence of increased rotational inertia on the turning performance of humans". Journal of Experimental Biology, Vol.204(Pt 22), pp. 3927-3934, (2001).   DOI
17 N. L. Erber, J. B. Almerigi, T. J. Carbary, L. J. Harries, "The contribution of postural bias to lateral preferences for holding human infants". Brain Cognition, Vol.48(2-3), pp. 352-356, (2002).   DOI
18 K. F. Orishimo, I. J. Kremenic, E. Pappas, M. Hagins, M. Liederbach, "Comparison of landing biomechanics between male and female professional dancers". The American Journal of Sports Medicine, Vol.37, No.11 pp. 2187-2193, (2009).   DOI
19 S. C. Jo, "Biomechanical analysis of bare foot landing and shod foot landing in drop jump". The Korean Journal of Physical Education, Vol.38, No.3 pp. 715-725, (1999).
20 Y. Sato, S. Torii, M. Sasaki, T. Heinen, "Gaze-shift patterns during a jump with full turn in male gymnasts". Perceptual and Motor Skills, Vol.124(1), pp. 248-263, (2017).   DOI
21 N. S. Yun, K. O. Yi, I. A. Song, "A characteristics of intralimb segment coordination and a pattern of vertical reaction force of turn-out vertical jump in dance". The Korean Journal of Physical Education, Vol.38, No.4 pp. 1006-1014, (1999).
22 D. A. Winter, "Biomechanics and motor control of human movement (4th ed.)". pp. 127-128, John Wiley & Sons, (2009).
23 H. J. Yoon, D. A. Mun, "The effect of differences of take-off direction and age on the biomechanical factors during depth jump". Korean Journal of Sport Biomechanics, Vol.9, No.1 pp. 115-126, (1999).
24 Y. S. Park, "An analysis of turning area and balance by hand dominance, foot dominance, and turning direction". The Korean Journal of Growth and Development, Vol.21, No.2 pp. 101-107, (2013).
25 J. L. McNitt-Gray, "Kinetics of the lower extremities during drop landing from three heights". Journal of Biomechanics, Vol.26, No.9 pp. 1037-1046, (1993).   DOI
26 C. D. Davlin, W. A. Sands, B. B. Shultz, "Do gymnasts ''spot'' during a back tuck somersault". International Sports Journal, Vol.8, No.2 pp. 72-79, (2004).
27 Y. I. Abdel-Aziz, H. M. Karara, "Direct linear transformation from comparator coordinates into object space coordinates in close-range photogrammetry". Proceedings of the Symposium on Close-Range Photogrammetry(pp. 1-18). Falls Church, VA: American Society of Photogrammetry, (1971).
28 S. Robbins, E. Waked, "Balance and vertical impact in sports: Role of shoe sole materials". Archives of Physical Medicine and Rehabilitation, Vol.78, No.5 pp. 463-467, (1997).   DOI
29 K. W. Kim, K. K. Jeon, S. W. Park, S. J. Ahn, "The effects of chronic ankle instability on postural control during forward jump landing". Korean Journal of Sport Biomechanics, Vol.32, No.1 pp. 9-16, (2022).
30 M. J. Adrian, J. M. Cooper, "The biomechanics of human movement". Indianapolis, Indiana: Benchmark Press, (1989).
31 J. S. Dufek, B. T. Bates, "The evaluation and prediction of impact forces during landings". Medicine Science Sports Exercise, Vol.22, No.2 pp. 370-377, (1990).
32 Y. S. Park, "The effects of turn motion to kinematic factors and vestibular system". Unpublished Doctor's Thesis, HanYang University, Seoul, Korea, (2006).
33 P. M. Galley, A. L. Forater, "Human movement". Churchill Livingstone, pp. 174-176, (1985).
34 T. Heinen, "Evidence for the spotting hypothesis in gymnasts". Motor Control, Vol.15, No.2 pp. 267-284, (2011).   DOI
35 M. Raab, R. F. de Oliveira, T. Heinen, "How do people perceive and generate options?" In M. Raab, H. Hekeren & J. G. Johnson (Eds.), Mind and motion: The bidirectional link between the thought and action (pp. 49-59). Amsterdam, the Netherlands: Elsevier, (2009).