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2013 | 5 | 3 | 199-206
Tytuł artykułu

An assessment of a volleyball player’s loads in a match on the basis of the number and height of jumps measured in real-time conditions

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Background: The value of volleyball players’ reach is often critical to their efficient functioning in the game. It depends on the jumping ability factor and the player’s body build. An analysis of this parameter is particularly difficult to carry out in real conditions of the game. The objective of the research was to determine the height of reach in basic technical and tactical actions of leading Polish volleyball players during a match in regard to their maximum values measured in laboratory conditions. Material/Methods: The study involved five volleyball players, Polish representatives of different specialization in the game: the attacker, the setter, the middle blocker and two receivers. The study made use of a camcorder and an innovative computer program AS-4, which enables measuring the value of reach at which tactical and technical actions are carried out in the game. Results: A total of 378 tactical and technical actions of the tested players were registered. It turned out that they were performed at the level of (reach) 87.4% in comparison to the maximum reach measured in laboratory conditions. Conclusions: Values of reach achieved by the tested volleyball players have a significant, positive correlation with results obtained in individual sets. The values closest to the value of the maximum reach were reported in attack, the lowest ones in setting.
Słowa kluczowe
Wydawca

Rocznik
Tom
5
Numer
3
Strony
199-206
Opis fizyczny
Daty
wydano
2013-10-01
online
2013-10-20
Twórcy
  • Gdansk University of Physical Education and Sport in Gdansk, Poland, wnorowskik@wp.pl
  • Gdansk University of Physical Education and Sport in Gdansk, Poland
  • Gdansk University of Physical Education and Sport in Gdansk, Poland
  • Gdansk University of Physical Education and Sport in Gdansk, Poland
Bibliografia
  • 1. Kabacinski J, Dworak LB, Murawa M, Maczynski J. Biomechanical comparative analysis of take-off dynamics parameters in blocks and spikes of female volleyball. In: Abstracts of International Biomechanics Conference. Warsaw; 2010, 101-102.
  • 2. Starosta W, Radzinska M. Porownanie wynikow skocznosci uzyskanych roznymi metodami pomiaru [A comparison of results in the jumping ability obtained by various methods of measurement]. Monografie nr 333 [Monographs no. 333]. Poznan: AWF; 2001. Polish.
  • 3. Ruka M, Szeklicki R. Zdolności skocznościowe a wybrane parametry morfologiczne [Jumping abilities and selected morphological parameters]. Monografie nr 318 [Monographs no. 318]. Poznan: AWF; 1995. Polish.
  • 4. Harmen E. Estimation of human power output from vertical jump. Journal of Applied Sport Science Research. 1991;5(3):116-120.
  • 5. Yong W. Tests used by volleyball coaches for determining physical fitness. International Volleytech. 1995;2:18-24.
  • 6. Yong W. Specificity of jumping ability. Sports Coach. 1995;Winter:22-25.
  • 7. Brown M, Mayhew J, Boleach L. Effect of plyometric training on vertical jump performance in high school basketball players. J Sport Med Phys Fit. 1986;26(1):1-4.
  • 8. Eisenman P. Effect of plyometric training on vertical jump performance in high school basketball players. J Sport Med Phys Fit. 1978;26(1):1-4.
  • 9. Adams K, Worley D. The effects of selected plyometric and weight training on muscular power. Track and Field Quarterly Review. 1987;4:45-47.
  • 10. Brezzo R, Fort L, Dianna R. The effects of modified plyometric program on junior high female basketball players. Journal of Applied Research in Coaching and Athletics. 1988;3:172-181.
  • 11. Adams K, O’Shea J. The effect of six week squat, plyometric and squat - plyometric training on power production. Journal of Applied Sport Science Research. 1992;1(6):36-41.
  • 12. Shorten M. Muscle elasticity and human performance. Med Sport Sci. 1987;25:1-18.
  • 13. Conlee R. Physiological effects of power volleyball. Physician Sportsmed. 1982;4:25-27.
  • 14. Black W, Roundy E. Comparisons of size, strength, speed and power in NCCA Division 1 Football players. J Strength Cond Res. 1994;8(2):80-85.
  • 15. Coutts K. Some force-time characteristics of three styles of spike jump. Volleyball Technical Journal. 1976;4(2).
  • 16. Latin R. Physical and performance characteristics of NCAA Division 1 male basketball players. J Strength Cond Res. 1994;8(4):214-218.[WoS]
  • 17. Maneval M, Poole W. The effects of two ten week’ depth jumping routine on vertical jump performance as it relates to leg power. International Journal of Swimming Research. 1987;3(1):11-14.
  • 18. Riggs M, Sheppard J. The relative importance of strength and power qualities to vertical jump height of elite beach volleyball players during the counter-movement and squat jump. Journal of Human Sport & Exercise. 2009;4(3):221-237.
  • 19. Ziv G, Lidor R. Vertical jump in female and male volleyball players: a review of observational and experimental studies. Scand J Med Sci Spor. Aug 2010;20(4):556-67.[WoS][Crossref]
  • 20. Van Soest AJ. A comparison of one and two legged countermovement jumps. Med Sci Sport Exer. 1985;17(6):635-639.
  • 21. Sheppard JM, Gabbett TJ, Stanganelli LCR. An analysis of playing positions in elite men's volleyball: Considerations for competition demands and physiologic characteristics. J Strength Cond Res. Sep 2009;23(6):1858-1866.[WoS][Crossref]
  • 22. Sheppard J, Newton J, McGuigan R, The effect of accentuated eccentric load on jump kinetics in highperformance volleyball players. International Journal of Sports Science & Coaching 2007;2(3):267-274.
  • 23. Sheppard J, Hobson S, Barker M, et al. The effect of training with accentuated eccentric load countermovement jumps on strength and power characteristics of high-performance volleyball players. International Journal of Sports Science & Coaching. 2008;3(3):355-363.[WoS]
  • 24. Clutch D, Wilton M, Mc Gown C. The effect of depth jumps and weight training on leg strength and vertical jump. Res Q Exerc Sport. 1983;1:5-10.[Crossref]
  • 25. Huijing P. Elastic potential of muscle. In: Komi PV, editor. Strength and power in sport. Oxford: Blackwell Scientific Publications; 1992, 151-168.
  • 26. Aschenbrenner P, Lipinska P, Erdmann WS. Application of the AS-4 software in research on players’ kinematics on a large area in 3D coordinates as an alternative to commercial programs. Baltic Journal Of Health And Physical Activity. 2012;4(3):172-179.
  • 27. Hong-Wen W, Yi-Wen Ch, Chia-Wei L, Lin-Hwa W. Biomechanical analysis of landing from counter movement jump and vertical jump with run-up in the individuals with functional ankle instability. Int J Sport Exerc Sci. 2010;2:43-48.
  • 28. Shorten M. Muscle elasticity and human performance. Med Sport Sci. 1987;25:1-18.
  • 29. Tabor P, Mastalerz A, D. Iwanska D. Biomechanical criteria of attack technique effectiveness in volleyball. Sport Wyczynowy. 2004;1-2:469-47.
  • 30. Coleman S, Benham A, Northcott SA. Three-dimensional cinematographical analysis of the volleyball spike. J Sport Sci. 1993;11:259-302.
  • 31. Stech M, Skrobecki J, Wnorowski K. The model characteristic of jump actions structure of high performance female volleyball players. Pedagogika, Psychologia. Medyczno-Biologiczne Problemy Fizycznego Wychowania i Sportu. 2012;(11):143-145.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_2478_bjha-2013-0019
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