The identification of mechanical variables in the motor performance trajectory has a prominent role in improving skill performance, error-exceeding, it contributes seriously to solving some problems of learning and training. The study Aims to highlight the indicators of motor performance for Paralympic athletes during the practicing sports between modelling and between excellences in motor performance, this by taking into account the distinction of athlete practicing with special behavioural skills for the Paralympic athletes. In the study we relied on the analysis of some previous research of biomechanical performance indicators during some of the events sports (shooting activities in the Paralympic athletics, shooting skill in the wheelchair basketball). The results of the study highlight the distinction of disabled practitioners of sporting events identified in motor performance during practice, by overcoming some physics indicators in human movement, as a lower centre of body weight, Increase in offset distance, such resistance which requires them to redouble their efforts. However, the results of the study highlighted the strength of the correlation between biomechanical variables of motor performance and the digital level achievement similar to the other practitioners normal.
KeywordsSports The disabled Motor Performance Paralympic
- Commonwealth games federation - commonwealth sports - elite athletes with a disability (ead).” [Online]. Available: https://www.thecgf.com/sports/ead.asp. [Accessed: 10-mar-2018].
- History of adaptive and disabled sports | adaptive sports for anyone with a disability | disabled sports USA,” 05-feb-2016. [Online]. Available: https://web.archive.org/web/20160205185150/http://www.disabledsportsusa.org/disabled-sportsearly-history/. [Accessed: 10-mar2018].
- “History of the Paralympics,” 02-aug-2009. [Online]. Available: https://web.archive.org/web/20090 802152653/http://www.paralympiceducation.ca/content/history/11%20history%20of%20the%20paralympics.asp?langid=1. [Accessed: 10-mar-2018].
- Roger Bartlett, (2007), Introduction to Sports Biomechanics, 2nd Edition,.
- Paralympics history - history of the Paralympic movement, international Paralympic committee. [Online]. Available: https://www.paralympic.org/the-ipc/historyof-the-movement. [Accessed: 10-mar-2018].
- Steffen Willwacher, Wolfgang Potthast, Ralf Müller, Gert-Peter Brüggemann, Shot put kinematics of world class athletes with an intellectual disability, International Conference on Biomechanics in Sport, 2011.
- Laurent Frossard, Alison O'Riordan & Scott Goodman, Throwing frame and performance of elite male seated shot-putters, Sports Technology, 3 (2010) 88-101
- M. Young & L. Li, Athletics, Sports Biomechanics, 4 (2005) 131–148.
- G. Terzis, T. Kyriazis, G. Karampatsos & G. Georgia, Muscle strength, Body composition, and performance of an elite shot-putter. International Journal of Sports Physiology and Performance, 7 (2012) 394–396.
- F. Morrien, M. J. Taylor, and F. J. Hettinga, Biomechanics in paralympics: implications for performance, International Journal of Sports Physiology and Performance, 12 (2017) 578- 589.
- Túlio Banja, kinematics and aerodynamics parameters on paralympic discus throw, ISBS Symposium 2007, Ouro Preto – Brazil. (2007) 521–524.
- J. Ellidge, “Biomechanics of a Discus Throw: Biomechanics within Discus,” Biomechanics of a Discus Throw, 19-Jun-2014.
- A. Gil-Agudo, A. Del Ama-Espinosa, and B. Crespo-Ruiz, wheelchair basketball quantification, Physical Medicine & Rehabilitation Clinics of North America, 21 (2010) 141-56
- Haris Pojskić, Vlatko Šeparović, Melika Muratović,Edin Užičanin, The relationship between physical fitness and shooting accuracy of professional basketball players, Motriz: Revista de Educação Física 20 (2014).
- L. A. Malone, P. L. Gervais, and R. D. Steadward, Patterns of segment co-ordination in wheelchair basketball shooting, Journal of Human Movement Studies, 43 (2002) 211–227.
- Y. Vanlandewijck, D. Theisen, and D. Daly, Wheelchair propulsion biomechanics: implications for wheelchair sports,” Sports Medicine, 31 (2001) 339–367.
- W. Doyo, S. Sakurai, Y. Ikegmai, K. Yabe, A kinematic study of the upper-limb motion of wheelchair basketball shooting in tetraplegic adults, Journal of Rehabilitation Research and Development., 39 (2002) 63–71.