Factores mejorables con el entrenamiento asociados a la efectividad mecánica del remate de voleibol

Referencias bibliográficas

• 1. Abendrtoh-Smith, J., & Kras, J (1999). More B-BOAT. The volleyball spike. Journal of Physical Education, Recreation and Dance, 70(3), 56-59
• 2. Ahrabi-Fard, I (1999). Three phases dynamic flexibility training to improve spiking velocity. Performance Volleyball Conditioning, 7(6), 1-2
• 3. Baudin, J., Gervais, P., & Wu, T (2004). An examination of the biomechanical factors that produce spin on a volleyball in the skill of spiking. Proceedings of: XX Symposium of the International Society of Biomechanics in Sport. Ottawa: Canada, pp. 134
• 4. Bobbert, M. F., & Van Ingen Schenau, G. J (1988). Coordination in vertical jumping. Journal of Biomechanics, 21(3), 249-262
• 5. Bompa, T (2000). Periodización del entrenamiento deportivo (programas para obtener el máximo rendimiento en 35 deportes). Barcelona: Paidotribo
• 6. Burchuck, R., & Burchuk, M (1993). Avanced attack skills (Capitulo 1, pp 2-38). En Canadian Voleibol Association (Ed.). Coaches Manual: Level 4. Gloucester. Ontario
• 7. Campos, J (1993). Lanzamiento de jabalina. En Bravo J., Campos, J., Dura, J., y Martínez, J. L. Lanzamientos, atletismo 3 (pp. 233-291). Real Federación Española de Atletismo: Madrid
• 8. Cavagna, G. A., Dusman, B., & Margaria, R (1968). Positive work done by previously stretched muscle. Journal of Applied Physiology, 24(1), 21-32
• 9. Chen, P., Huang, C., & Shih, S (2011). Differences in 3D kinematics between genders during volleyball spike. Proceedings of the Congress of the International Society of Biomechanics. Bruselas: Bélgica
• 10. Christopher, G. A (2001). Shoulder biomechanics in volleyball spiking: Implications for injuries. Unpublished Ph. D. Dissertation. Brigham Young University. Provo, Utah: USA
• 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, 124-151
• 12. Cisar, C. J., & Corbelli, J (1989). The volleyball spike: a kinesiological and physiological analysis with recommendations for skill development and conditioning programs. National Strength and Conditioning Association Journal, 11(1), 4-8
• 13. Cloes, M., Croisier, J-L., Barsin, M., Ciccarone, G., & Forthomme, B (2004). Analysis of the volleyball spike: relationship between several parameters and the speed of the ball. Proceedings of the 2004 Pre-Olympic Congress. Sport Science Through the Age. Thessaloniki: Grecia
• 14. Coleman, S., Benham, A., & Northcott, S (1993). A three-dimensional cinematographical analysis of the volleyball spike. Journal of Sports Sciences, 11(4), 295-302
• 15. Eom, H., & Schutz, R (1992). Statistical analyses of volleyball team performance. Research Quarterly for Exercise and Sport, 63(1), 11-18
• 16. Ferragut, C., Cortadellas, J., Arteaga, R., & Calbet, J. A. L (2003). Predicción de la altura de salto vertical. Importancia del impulso mecánico y de la masa muscular de las extremidades inferiores. Revista Motricidad. European Journal of Human Movement, 10, 7-22
• 17. Ferris, D., Signorile, J., & Caruso, J (1995). The relationship between physical and physiological variables and volleyball spiking velocity. Journal of Strength and Conditioning Research, 9(1), 32-36
• 18. Forthomme, B., Croisier, J-L., Ciccarone, G., Crielaard, J., & Cloes, M (2005). Factors correlated with volleyball spike velocity. American Journal of Sport Medicine, 33(10), 1513-1519
• 19. González, J. J (2000). Concepto y medida de la fuerza explosiva en el deporte. Posibles aplicaciones al entrenamiento. (RED) Revista de Entrenamiento Deportivo, 4(1), 5-16
• 20. Grimshaw, P., & Burden, A (2007). Sport and exercise biomechanics. London: Taylor & Francis Group, pp. 295-316
• 21. Guo, R., & Li, Y (2000). Kinematic analysis of spiking in elite volleyball players during competition. Proceedings of: XVIII Symposium of the International Society of Biomechanics in Sport. Hong Kong: China
• 22. Gutiérrez, M (1988). Estructura biomecánica de la motricidad. Derechos reservados del C.D.I.N.E.F. Imprime Alhambra, Granada
• 23. Gutiérrez, M., Santos, J., & Soto, V (1992). Análisis biomecánico del remate en voleibol. Madrid: Federación Española de Voleibol
• 24. Gutiérrez, M., Ureña, A., & Soto, V (1994). Biomechanical analysis of the volleyball. Journal of Human Movement Studies, 26, 35-49
• 25. Howard, R. E (1996). An understanding of the fundamental techniques of volleyball. San Francisco: Benjamin Cummings
• 26. Hu, L., Chen, Y., & Huang, C (2005). A 3D analysis of the volleyball spike. Proceedings of: XXII Symposium of the International Society of Biomechanics in Sport. Beijing: China, pp. 290-292
• 27. Huang, C., Liu, G., & Sheu, T (1999). Kinematic analysis of the volleyball back row jump spike. Proceedings of: XVII Symposium of the International Society of Biomechanics in Sport. Perth: Australia, pp. 49-52
• 28. Huang, K. C., Hu, L. H., Huang, C., Sheu, T. Y., & Tsue, C. M (2002). Kinetic and kinematic differences of two volleyball spiking jumps. Proceedings of: XX Symposium of the International Society of Biomechanics in Sport. Cáceres: España, pp. 148-151
• 29. Ivoilov, A (1986). Voleibol. Técnica, táctica y entrenamiento. Buenos Aires: Stadium
• 30. Jöris, H. J. J., Edwards Van Muyen, A. J., Van Ingen Schenau, G. J., & Kemper, H. C. G (1985). Force, velocity and energy flow during forearm throw in the female handball players. Journal of Biomechanics, 18(6), 409-414
• 31. Kao, S., Sellens, R., & Stevenson, J (1994). A mathematical model for the trajectory of a spike volleyball and its coaching application. Journal of Applied Biomechanics, 10(2), 95-109
• 32. Knudson, D., & Morrison, C (2002). Qualitative analysis of human movement. Champaign, IL: Human Kinetics
• 33. Komi, P. V., & Bosco, C (1978). Utilization of stores elastic energy in leg extensor muscles by men and women. Medicine and Science in Sports, 10(4), 261-265
• 34. Kuhlmann, C., Roemer, K., & Milani, T. L (2007). Aspects of a three dimensional motion analysis of the volleyball spike in high level competition. Proceedings of: XXV Symposium of the International Society of Biomechanics in Sport. Ouro Preto: Brasil, pp. 47-50
• 35. Luthanen, P., & Komi, P (1978). Segmental contribution to forces in vertical jump. European Journal of Applied Physiology, 38(1), 181-188
• 36. Marelic, N., Resetar, T., & Jancovic, V (2004). Discriminant analysis of the sets won and the sets lost by one team in A1 Italian volleyball league- a case study. Kinesiology, 36(1), 75-82
• 37. Masumura, M., Marquez, W. Q., & Ae, M (2009). Front and pipe spikes in female elite volleyball players: implications for the improvement of pipe spike techniques. Proceedings of: XXVI Symposium of the International Society of Biomechanics in Sport. Limerick: Irlanda
• 38. Masumura, M., Marquez, W. Q., Endo, T., & Ae, M (2008). A biomechanical analysis of pipe spike motion for elite male volleyball players in official games. Proceedings of: XXVI Symposium of the International Society of Biomechanics in Sport. Seoul: Korea, pp. 723-726
• 39. Palao, J. M., Santos, J. A., & Ureña, A (2004). Effect of team level on skill performance in volleyball. International. Journal of Performance Analysis in Sport, 4(2), 50-60
• 40. Prsala, J (1982). Improving your spiking in volleyball. Volleyball Technical Journal, 7(2), 57-64
• 41. Ramón, G., & Zapata, A (2005). Análisis cinemático de la fases de doble apoyo y de salto, del remate por la zona 4 de los jugadores de la selección masculina de voleibol de antioquia, categoría mayores. Educación física y deporte. Universidad de Antioquia, pp. 117-130
• 42. Reeser, J., Fleisig, G., Bolt, B., & Ruan, M (2010). Upper limb biomechanics during the volleyball serve and spike. Sports Health: A Multidisciplinary Approach, 2(5), 368-374
• 43. Selinger, A., & Ackerman-Boult, J (1985). Arie Selinger's power volleyball. New York: St. Martin's Press
• 44. Shahbazi, M. M., & Khanzadeh, S (1998). A Simple mathematical model for estimating force and torque to the wrist, elbow and shoulder in serving, spiking and blocking in volleyball. Proceedings of: XVI Symposium of the International Society of Biomechanics in Sport. Konstanz: Alemania
• 45. Shahbazi, M. M., Sanders, H. R., & Coleman, S. G (2002). Initial ball speed and forces estimation at impact ion volleyball and football. Proceedings of: XX Symposium of the International Society of Biomechanics in Sport. Cáceres: España, pp. 318-321
• 46. Stamm, R., Veldre, G., Stamm, M., Thomson, K., Kaarma, H., Loco, J., & Koskel, S (2003). Dependence of young female volleyballers´ performance on their body build, physical abilities, and pchicho-physiologycal properties. Journal of Sports Medicine and Physical Fitness, 43(3), 291-299
• 47. Tant, C. L., Greene, B., & Bernhardt, M (1993). A comparison of the volleyball jump serve and the volleyball spike. Proceedings of: XI Symposium of the International Society of Biomechanics in Sport. Amherst, Massachusetts: USA, pp. 344-346
• 48. Tillman, M., Hass, C., Brunt, D., & Bennett, G (2004). Jumping and landing techniques in elite women´s volleyball. Journal of Sport Science and Medicine, 3(1), 30-36
• 49. Valadés, D (2005). Efecto de un entrenamiento en el tren superior basado en el ciclo estiramiento-acortamiento sobre la velocidad del balón en el remate de voleibol. Tesis Doctoral. Departamento de Educación Física y Deporte. Universidad de Granada. Granada: España
• 50. Valadés, D., Femia, P., Palao, J. M., Padial, P., & Ureña, A (2004). Análisis de la técnica básica del remate de voleibol. Rendimiento deportivo (http://www.rendimientodeportivo.com), 8, 1-17
• 51. Valadés, D., Palao, J. M., Femia, P., Padial, P., & Ureña, A (2007). Validez y fiabilidad del radar para el control de la velocidad del remate en voleibol. Cultura, Ciencia y Deporte, 6(2), 131-138
• 52. Van Den Tillaar, R (2004). Effect of different training programs on the velocity of overarm throwing, a brief review. Journal of Strength and Conditioning Research, 18(2), 388-396
• 53. Vint, P (1994). The mechanics of motion: Scientific aspects of jumping. Coaching Volleyball, Decem/January, 26-27
• 54. Vint, P (1995). Secrets of speed-An in depth look at spiking. Performance Conditioning for Volleyball, 2(9), 4-6
• 55. Vint, P (1998). Hitting biomechanics: the foundation of skill application. Coaching volleyball. April/May, 10-15
• 56. Vint, P., & Hinrichs, R (2004). Deterministic factors of overall ball contact height during high-outside front-row volleyball attacks. Proceedings of: XXII Symposium of the International Society of Biomechanics in Sport. Ottawa: Canada, pp. 139-142
• 57. Vint, P., & Hinrichs, R (2004). Factors related to the development of ball speed and to the incidence of one-legged landings in the front-row volleyball attack. Proceedings of: XXII Symposium of the International Society of Biomechanics in Sport. Ottawa: Canada, pp. 135-138
• 58. Voigt, M., & Klausen, K (1990). Changes in muscle strength and speed of an unloaded movement after various training programmes. European Journal of Applied Physiology and Occupational Physiology, 60(5), 370-376
• 59. Wedaman, R., Tant, C., & Wilkerson, J (1988). Segmental coordination and temporal structure of the volleyball spike. Proceedings of: VI Symposium of the International Society of Biomechanics in Sport. Bozeman, Montana: USA, pp. 577-586
• 60. Wirhed, R (1982). Habilidad atlética y anatomía del movimiento. Barcelona: Edika-Med
• 61. Zhang, R (2000). How to profit by the new rules. The Coach, 1, 9-11