论文信息 - BIOLOGICAL MOVEMENT VARIABILITY DURING THE SPRINT START

BIOLOGICAL MOVEMENT VARIABILITY DURING THE SPRINT START

The current study proposed a method for estimating biological movement variability in order to examine its effect on 10 m sprinting performance. Two 250 Hz cameras recorded the sprinters (male, n=10) action across four trials to enable the kinematics of their block start and initial strides to be obtained using motion analysis software (APAS). Infra-red timing lights were utilised to measure the 10 m sprinting times. The coefficient of variation (CV %) calculation was adjusted in order to separate biological movement variability (BCV %) from variability induced by measurement error (SEE %). This adjustment revealed that measurement error highly inflated traditional measures of movement variability (CV %) by up to 72%,. Variability in task outcome kinematics was considerably lower than that observed in joint rotation patterns. Few biological variability measures had a direct relationship with reduced sprinting time.

[1] David N. Lee,et al. Regulation of gait in long jumping. , 1982 .

[2] G Atkinson,et al. Statistical Methods For Assessing Measurement Error (Reliability) in Variables Relevant to Sports Medicine , 1998, Sports medicine.

[3] Jeffrey M. Hausdorff,et al. Maturation of gait dynamics: stride-to-stride variability and its temporal organization in children. , 1999, Journal of applied physiology.

[4] W G Hopkins,et al. Measures of Reliability in Sports Medicine and Science , 2000, Sports medicine.

[5] J. Buckley,et al. Muscle power patterns in the mid-acceleration phase of sprinting , 2001, Journal of sports sciences.

[6] E J Bradshaw,et al. Effects of approach velocity and foot-target characteristics on the visual regulation of step length. , 2001, Human movement science.

[7] Renato Rodano,et al. Stability of Selected Lower Limb Joint Kinetic Parameters During Vertical Jump , 2002 .

[8] C. Knight. Neuromotor Issues in the Learning and Control of Golf Skill , 2004, Research quarterly for exercise and sport.

[9] C. Hass,et al. Lower extremity coupling parameters during locomotion and landings. , 2005, Journal of applied biomechanics.

[10] Brad Aisbett,et al. Visual guidance during competition performance and run‐through training in long jumping , 2006, Sports biomechanics.