Volume 18, Issue 19 (7-2020)                   RSMT 2020, 18(19): 47-56 | Back to browse issues page


XML Persian Abstract Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

Shaterkazemi N, Zandi S, Shirzad E. Prediction of height and time of jump in elite female volleyball players with selected kinematic variables. RSMT 2020; 18 (19) :47-56
URL: http://jsmt.khu.ac.ir/article-1-433-en.html
, shzandi@ut.ac.ir
Abstract:   (6285 Views)
Regarding the effects of the kinematics of the movement on athletic performance and the Importance of promoting athlete’s performance on the sport fields, there is limited knowledge about the mechanism of the effect of different variables of volleyball spike. Therefore, the aim of this study was the prediction of jump performance in elite female volleyball players with selected kinematic variables.  Thirty elite female volleyball players with mean age of 21.44±3.42 have volunteered for this study. Lower limbs kinematics have been recorded using 16 reflexive markers with Vicon motion analysis system during volleyball spike jump performance. Jump height and time of concentric phase of jump have been predicted by center of mas velocity during step, final step length and ranges of the motion of hip, knee and ankle with stepwise regression (α≤0.05). The results showed that knee range of motion center of mass velocity and step length could be the predictors for time of jump and center of mass velocity and hip range of motion could be the predictors for the jump height as well. Considering these results and the goal and situation of the volleyball match, the players should focus on different phases and affecting variables of the spike jump.
 
Full-Text [PDF 980 kb]   (1243 Downloads)    
Type of Study: Research |
Received: 2020/07/18 | Accepted: 2020/07/15 | Published: 2020/07/15

References
1. Sattler, T., Sekulic, D., Esco, M.R., Mahmutovic, I., Hadzic, V. (2015). Anlysis of the association between isokinetic knee strength with offensive and defensive jumping capacity in high-level female volleyball athletes. Journal of Science and Medicine in Sport. 18(5):613-8. [DOI:10.1016/j.jsams.2014.08.002]
2. Palao, J., Santos, J., Ureña, A. (2007). Effect of the manner of spike execution on spike performance in volleyball. International Journal of Performance Analysis in Spor. 7(2):126-38. [DOI:10.1080/24748668.2007.11868402]
3. Zhang, Y. (2010). An investigation on the anthropometry profile and its relationship with physical performance of elite Chinese women volleyball players. In, pp. Southern Cross University: Lismore, NSW.
4. Hussain, I. (2012). Kinematic factors and volleyball spike jump performance of state and national levels male volleyball players. The Shield-Research Journal of Physical Education & Sports Science. 7:50-7.
5. Singh, A.B., Rathore, V.S. (2013). Kinematic factors of off-speed and power spike techniques in volleyball. Journal of Education and Practice. 4(7):112-8.
6. Coleman, S., Benham, A., Northcott, S. (1993). A three-dimensional cinematographical analysis of the volleyball spike. Journal of Sports Sciences. 11(4):295-302. [DOI:10.1080/02640419308729999]
7. Mann, M. (2008). The biomechanics of the volleyball spike/attack. Sports Biomechanics. 1-20.
8. Wagner, H., Tilp, M., Von Duvillard, S., Mueller, E. (2009). Kinematic analysis of volleyball spike jump. International Journal of Sports Medicine. 30(10):760-5. [DOI:10.1055/s-0029-1224177]
9. Serrien, B., Ooijen, J., Goossens, M., Baeyens, J.P. (2016). A motion analysis in the volleyball spike-part 1: three-dimensional kinematics and performance. International Journal of Human Movement and Sports Sciences. 4(4):70-82. [DOI:10.13189/saj.2016.040403]
10. Hsieh, C., Lamm, Z. (2016). Attack height and jump height for men's volleyball players. In ISBS-Conference Proceedings Archive.
11. Chung, C., Choi, K., Shin, I. (1990). Three dimensional kinematics of the striking arm during the volleyball spike. Korean Journal of Sport Science. 2:124-51.
12. Domire, Z.J., Challis, J.H. (2015). Maximum height and minimum time vertical jumping. Journal of Biomechanics. 48(11):2865-70. [DOI:10.1016/j.jbiomech.2015.04.021]
13. Corrêa, S., de Menezes, R., Paiano, R., Bojikian, J.C., Silva, D., Ferreira, D., de Souza, A.F. (2007). Kinematic analysis of volleyball spike. In ISBS-Conference Proceedings Archive.
14. Liu, G., Huang, G., Huang, C. (2001). Effects of different approach lengths of the last stride on volleyballer run up vertical jumps. In ISBS-Conference Proceedings Archive.
15. Shahbazi-Moghaddam, M., Mirabedi, A. (2008). Correlations between jump height and velocity components of different approach strides in power spiking. In ISBS-Conference Proceedings Archive.
16. Hsieh, C., Christiansen, C.L. (2010). The effect of approach on spike jump height for female volleyball players. International Journal of Sports Science & Coaching. 5(3):373-80. [DOI:10.1260/1747-9541.5.3.373]
17. Hsieh, C., Heise, G.D. (2006). Important kinematic factors for female volleyball players in the performance of a spike jump. In The Americal Society of Biomechanics Conference.
18. Shahbazi, M., Mirabedi, A., Gaeini, A. (2007). The volleyball approach: an exploration of run-up last stride length with jump height and deviation in landing. In ISBS-Conference Proceedings Archive.
19. Hsieh, C., Cascarina, S., Pingatore, J. (2010). Kinetic effect of a four-step and step-close approach in a volleyball spike jump for female athletes. In ISBS-Conference Proceedings Archive.
20. Huang, K.C., Hu, L.H., Huang, C., Sheu, T.Y., Tsue, C.M. (2002). Kinetic and kinematic differences of two volleyball-spiking jumps. In ISBS-Conference Proceedings Archive.
21. Georgios, P., Fotis, K., Thomas, N., Vassilios, P., Iraklis, K. (2007). Influence of the ankle joint dorsiflexion on the execution of vertical jumps. In ISBS-Conference Proceedings Archive.
22. Gheller, R.G., Dal Pupo, J., Ache-Dias, J., Detanico, D., Padulo, J., dos Santos, S.G. (2015). Effect of different knee starting angles on intersegmental coordination and performance in vertical jumps. Human Movement Science. 42:71-80. [DOI:10.1016/j.humov.2015.04.010]
23. Kuhlmann, C.H., Roemer, K., Milani, T.L. (2011). Lowering velocity of the centre of mass during the approach affects jump height in volleyball spike jumps. In ISBS-Conference Proceedings Archive.
24. McErlain-Naylor, S., King, M., Pain, M.T.G. (2014). Determinants of countermovement jump performance: a kinetic and kinematic analysis. Journal of Sports Sciences. 32(19):1805-12. [DOI:10.1080/02640414.2014.924055]
25. Moran, K. A., Wallace, E.S. (2007). Eccentric loading and range of knee joint motion effects on performance enhancement in vertical jumping. Human Movement Science. 26(6):824-40. [DOI:10.1016/j.humov.2007.05.001]
26. Jidovtseff, B., Quievre, J., Nigel, H., Cronin, J. (2014). Influence of jumping strategy on kinetic parameters. Journal of Sports Medicine and Physical Fitness. 54:129-38.
27. Vanrenterghem, J., Lees, A., Lenoir, M., Aerts, P., De Clercq, D. (2004). Performing the vertical jump: Movement adaptations for submaximal jumping. Human Movement Science. 22(6):713-27. [DOI:10.1016/j.humov.2003.11.001]
28. Bobbert, M.F., Casius, L.R., Sijpkens, I.W., Jaspers, R.T. (2008). Humans adjust control to initial squat depth in vertical squat jumping. Journal of Applied Physiology. 105(5):1428-40. [DOI:10.1152/japplphysiol.90571.2008]
29. Tilp, M., Wagner, H., Müller, E. (2008). Differences in 3D kinematics between volleyball and beach volleyball spike movements. Sports Biomechanics. 7(3):386-97. [DOI:10.1080/14763140802233231]
30. Marquez, W., Masumura, M., Ae, M. (2005). A Bio-mechanical analysis of spike motion for different skill levels of male volleyball players. In Proceedings of the 20th Congress of the International Society of Biomechanics and the 29th Annual Meeting of the American Society for Biomechanics, Clevezland Ohio.
31. Chen, Y.C., Huang, C.F. (2008). Kinematical analysis of female volleyball spike. In ISBS-Conference Proceedings Archive.
32. Hara, M., Shibayama, A., Takeshita, D., Fukashiro, S. (2006). The effect of arm swing on lower extremities in vertical jumping. Journal of Biomechanics. 39(13):2503-11. [DOI:10.1016/j.jbiomech.2005.07.030]
33. Hara, M., Shibayama, A., Takeshita, D., Hay, D.C., Fukashiro, S. (2008). A comparison of the mechanical effect of arm swing and countermovement on the lower extremities in vertical jumping. Human Movement Science. 27(4):636-48. [DOI:10.1016/j.humov.2008.04.001]
34. Lees, A., Vanrenterghem, J., De Clercq, D. (2004). Understanding how an arm swing enhances performance in the vertical jump. Journal of Biomechanics. 37(12):1929-40. [DOI:10.1016/j.jbiomech.2004.02.021]

Add your comments about this article : Your username or Email:
CAPTCHA

Send email to the article author


Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

© 2024 CC BY-NC 4.0 | Research in Sport Medicine and Technology

Designed & Developed by: Yektaweb