SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Article References

LOUREIRO JR., Luiz de França Bahia  and  FREITAS, Paulo Barbosa de. Influência do nível de desempenho de jogadores de badminton em aspectos neuromotores durante uma tarefa de apontar um alvo. Rev Bras Med Esporte [online]. 2012, vol.18, n.3, pp. 203-207. ISSN 1517-8692.  http://dx.doi.org/10.1590/S1517-86922012000300014.

    1. Abernethy B, Russell DG. Expert-Novice Differences in an Applied Selective Attention Task. J Sport Psychol 1987;9:326-45. [ Links ]

    2. Cheng KC, Liu YT. Information of badminton forehand shots from dynamic point light display. J Sport Exerc Psychol 2009:31,S55-6. [ Links ]

    3. Hagemann N, Memmert D. Coaching anticipatory skill in badminton: Laboratory versus field-based perceptual training. J Hum Mov Stud 2006;50:381-98. [ Links ]

    4. Jin H, Xu GP, Zhang JX, Ye ZE, Wang SF, Zhao L, et al. Athletic training in badminton players modulates the early C1 component of visual evoked potentials: A preliminary investigation. Int J Psychophysiol 2010;78:308-14. [ Links ]

    5. Akarsu S, Caliskan E, Dane S. Athletes have faster eye-hand visual reaction times and higher scores on visuospatial intelligence than nonathletes. Turk J Med Sci 2009;39,871-4. [ Links ]

    6. Barcelos JL, Morales AP, Maciel RN, Azevedo MMA, Silva VF. Tempo de prática: estudo comparativo do tempo de reação motriz entre jogadoras de voleibol. Fit Perf J 2009;8:103-9. [ Links ]

    7. Junge A, Dvorak J, Rosch D, Graf-Baumann T, Chomiak J, Peterson L. Psychological and sport-specific characteristics of football players. Am J Sports Med 2000;28:S22-8. [ Links ]

    8. Zwierko T. Differences in peripheral perception between athletes and nonathletes. J Hum Kin 2007;19:53-62. [ Links ]

    9. Dane S, Hazar F, Tan U. Correlations between eye-hand reaction time and power of various muscles in badminton players. Int J Neurosci 2008;118,349-54. [ Links ]

    10. Yong-min C, Yue-Ping W, Cheng-mou L. Reaction time and competitive ability of badminton players. Zhejiang Sport Sci 2006;28:60-3. [ Links ]

    11. Ghez C, Krakauer J. The Organization of Movement. In: Kandel ER, Schwartz JH, Jessel TMl, editors. Principles of Neural Science. 4 ed. New York: McGraw-Hill; 2000. p. 653-74. [ Links ]

    12. Schmidt RA, Lee TD. Motor Control and Learning: A Behavioral Emphasis. 4 ed. Champaign: Human Kinetics, 2005. [ Links ]

    13. Sakurai S, Ohtsuki T. Muscle activity and accuracy of performance of the smash stroke in badminton with reference to skill and practice. J Sports Sci 2000;18:901-14. [ Links ]

    14. Jaitner T, Gawin W. A mobile measure device for the analysis of highly dynamic movement techniques. Procedia Eng 2010;2:3005-10. [ Links ]

    15. Tsai CL, Chang SS. Biomechanical analysis of differences in the badminton smash and jump smash between Taiwan elite and collegiate players. Proceedings of the XVI International Symposium on Biomechanics in Sports. 1998;259-62. [ Links ]

    16. Mori S, Ohtani Y, Imanaka K. Reaction times and anticipatory skills of karate athletes. Hum Mov Sci 2002;21:213-30. [ Links ]

    17. Borysiuk Z. Psychomotor reactions in fencing dependence of stimuli type. Rev Bras Cineantropom Desempenho Hum 2008;10:223-9. [ Links ]

    18. Spirduso WW, Clifford P. Replication of age and physical activity effects on reaction and movement time. J Gerontol 1978;33:26-30. [ Links ]

    19. Bessa LMPS. Tempo de Reacção Simples e Tempo de Movimento no karate. Estudo comparativo entre atletas com e sem experiência de competição [Dissertação de Licenciatura]. Porto: Universidade do Porto; 2009. [ Links ]

    20. Hughes M, Hughes T, Behan H. The evolution of computerised notational analysis through the example of racket sport. Korean J Meas Eval Phys Educ Sport Sci 2008;10:1-39. [ Links ]