1 |
D. W. Park, T. W. Kim, S. H. Park & S, K. Sung. (2016). Numerical Analysis of 3D Aerodynamic Charateristics for Spinning Flying Disc. Korean Society Of Computational Fluids Engineering Conference, 38-39.
|
2 |
T. W. Kim, S. H. Park, S. K. Sung & J. H. Lee. (2017). Aerodynamic Characteristics of Flying Disc Configurations Considering IoT Module Thickness. Korean Society Of Computational Fluids Engineering, 22(3), 28-35.
|
3 |
Potts, J. R. & Crowther, W. J. (2001). Flight control of a spin stabilised axi-symmetric disc-wing. 39th Aerospace Science Meeting and Exhibit.
|
4 |
J. H. Cha. (2015). Kinetic comparative analysis of tennis backhand stroke for interdisciplinary convergence research. Journal of Digital Convergence, 13(7), 373-380.
DOI
|
5 |
J. H. Song, J. H. Moon & D. M. Kim. (2015). Cases analysis of vault "Shirai-Kim Hee Hoon" technique for assessing skill completeness. Journal of Digital Convergence, 13(11), 441-448.
DOI
|
6 |
K. H. Kim & T. K. Kim. (2014). Correlation of isokinetic strength and angular velocity of knee during Fente motion in elite fencer. Journal of Digital Convergence, 12(9), 407-415.
DOI
|
7 |
T. W. Kim, S. H. Park, S. K. Sung & J. H. Lee. (2017). Aerodynamic characteristics of flying disc configurations considering IoT module thickness. The Journal of Computational Fluids Engineering, 22(3), 28-35.
DOI
|
8 |
S. M. Hong, S. H. Shin & S. H. Lee. (2005). The kinematical analysis of technical movement in discus throwing. Korean Journal of Sport Science, 16(4), 10-19.
|
9 |
J. I. Kim & J. B. Seon. (2003). The kinematics analysis of discus throwing. Korean Journal of Sport Biomechanics, 13(2), 29-47.
DOI
|
10 |
R. J. Gregor, W. C. Whiting & R. W. McCoy. (1985). Kinematic analysis of Olympic discus throwers. Journal of Applied Biomechanics, 1(2), 131-138.
|
11 |
A. Knicker. (1992). Kinematic characteristics of the discus throw. Modern Athlete and Coach, 30(1), 3-6.
|
12 |
B. Yu, J. Broker & L. J. Silvester. (2002). Athletics: A kinetic analysis of discus‐throwing techniques. Sports Biomechanics, 1(1), 25-45.
DOI
|
13 |
M. S. Ko. (2011). Physical education class using flying disc. Korean Society For The Study Of Physical Education, 47-59.
|
14 |
J. Lee & L.S. Jeong. (2017). Kinematic analysis affecting female discus throwers performance distance in international athletics throwing meeting. Journal of Sport and Leisure Studies, 67, 457-466.
DOI
|
15 |
Hay, J. G. (1993). The biomechanics of sports techniques. Englewood Cliffs, NJ: Prentice-Hall.
|
16 |
B. S. Na, S. J. Lee & O. H. Kim. (2008). Impacts of Flying Disc Handball classes in P.E. on High schoolers' self and group consciousness. The Korean Journal of Sport, 6(2), 35-44.
|
17 |
M. S. Ko. (2011). Pleasant physical education class using flying disks. Korean Society For The Study Of Physical Education Academic Presentation Conference, 47-59.
|
18 |
J. H. Choi. (2014). Sport for All: Rediscovery of Sport for All(Flying disks). Sport Science, 128, 54-57.
|
19 |
M. S. Ko. (2011). Pleasant physical education class using Flying disks. The Korean Society for The Study of Physical Education Conference, 47-59.
|
20 |
H. W. Kim & O. J. Kim. (2012). An Investigation Applicability P.E of Flying Disc Ultimate Game Applied to Area Form Competition Activity. The Korean Journal of Sport, 10(2), 295-309.
|
21 |
T. W. Kim, S. H. Park, S, K. Sung & J. H. Lee.(2017). Numerical Analysis of Aerodynamic Charateristics of a Flyins Disk Considering the Loading Effect. Korean Society Of Computational Fluids Engineering Conference, 20-21.
|