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http://dx.doi.org/10.5103/KJSB.2013.23.2.109

Kinematic Analysis of Cornering with Different Radius of Curve Course in Short Track Speed Skating  

Kim, Tae-Hoon (Department of Physical Education, Graduate School of Korea National Sport University)
Jun, Myung-Kyu (Department of Physical Education, College of Sport Science of Korea National Sport University)
Yoo, Si-Hyun (Department of Physical Education, Graduate School of Korea National Sport University)
Park, Sang-Kyoon (Department of Physical Education, College of Sport Science of Korea National Sport University)
Publication Information
Korean Journal of Applied Biomechanics / v.23, no.2, 2013 , pp. 109-116 More about this Journal
Abstract
The purpose of this study was to provide fundamental information for the enhancement of performance through kinematic analysis of cornering according to the radius of curve course in short track speed skating. To perform this study, six skaters: three narrow radius players(N, body mass: $56.0{\pm}7.2$ kg, height: $163.7{\pm}5.1$ cm, age: $21.3{\pm}1.5$ yrs) and three wide radius players(W, body mass: $61.0{\pm}9.5$ kg, height: $169.0{\pm}4.4$ cm, age: $20.0{\pm}1.7$ yrs). Three-dimensional motion analysis was performed on the section from the forth block starting to show the change of radius to the sixth block using eight infrared cameras(sampling frequency of 100 Hz for N and W players). The time of push-off was greater for N than for W(p<.05) while the radius of center of mass was greater for W than for N(p<.05). The flexion and extension of knee and hip joint were greater for N than for W(p<.05). The external rotation of left knee joint was greater for N than for W(p<.05). Based on the findings, a small radius by increasing the range of the flexion and extension of knee and hip joint with greater external rotation of left knee joint would be related to more efficient run at curve. It is expected that these results will be useful in developing a training program for enhancing performance of short track speed skating athletes.
Keywords
Short track; Radius; Kinematic analysis;
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Times Cited By KSCI : 2  (Citation Analysis)
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