Cassie Wilson scite author profile

The aim of this paper was to present a review on the role that movement variability (MV) plays in the analysis of sports movement and in the monitoring of the athlete's skills. MV has been traditionally considered an unwanted noise to be reduced, but recent studies have re-evaluated its role and have tried to understand whether it may contain important information about the neuro-musculo-skeletal organisation. Issues concerning both views of MV, different approaches for analysing it and future perspectives are discussed. Information regarding the nature of the MV is vital in the analysis of sports movements/motor skills, and the way in which these movements are analysed and the MV subsequently quantified is dependent on the movement in question and the issues the researcher is trying to address. In dealing with a number of issues regarding MV, this paper has also raised a number of questions which are still to be addressed.

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Coordination variability and skill development in expert triple jumpers

Wilson

Simpson

Emmerik

et al. 2008

Sports Biomechanics

157

125

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The aim of this study was to examine the influence of skill of expert triple jumpers on the coordination variability of lower extremity intra-limb couplings. In contrast to the traditional motor learning perspective, we hypothesized that as skill and thus performance increases, movement coordination variability will also increase. Three-dimensional kinematic and ground reaction force data were collected during the hop-step transition phase of the triple jump. Relative motion plots and a modified vector coding technique were used to quantify the coordination variability across the trials. The results were consistent with a U-shaped curve, representing coordination variability, as skill increases. The high coordination variability in less skilled athletes is present while the appropriate characteristics defining the movement coordination patterns are acquired. This coordination variability may not be beneficial to performance. As the refinement of these characteristics is achieved, coordination variability decreases, resulting in a more consistent or regulated performance. In the final stages of developing a skilled performance, a functional variability is accessed that brings flexibility to the system allowing it to cope with perturbations. This study highlights the need to address the learning effect when analysing coordination variability from a dynamical systems perspective.

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Lower limb joint kinetics in the starting blocks and first stance in athletic sprinting

Brazil

Exell

Wilson

et al. 2016

Journal of Sports Sciences

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The aim of this study was to examine lower limb joint kinetics during the block and first stance phases in athletic sprinting. Ten male sprinters (100 m PB, 10.50 ± 0.27 s) performed maximal sprint starts from blocks. External force (1000 Hz) and three-dimensional kinematics (250 Hz) were recorded in both the block (utilising instrumented starting blocks) and subsequent first stance phases. Ankle, knee and hip resultant joint moment, power and work were calculated at the rear and front leg during the block phase and during first stance using inverse dynamics. Significantly (P < 0.05) greater peak moment, power and work were evident at the knee joint in the front block and during stance compared with the rear block. Ankle joint kinetic data significantly increased during stance compared with the front and rear block. The hip joint dominated leg extensor energy generation in the block phase (rear leg, 61 ± 10%; front leg, 64 ± 8%) but significantly reduced during stance (32 ± 9%), where the ankle contributed most (42 ± 6%). The current study provides novel insight into sprint start biomechanics and the contribution of the lower limb joints towards leg extensor energy generation.

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A Comparison of Drop Jump Training Methods: Effects on Leg Extensor Strength Qualities and Jumping Performance

1999

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The purpose of this study was to determine the effects of two drop jump (DJ) training methods on the strength qualities of the leg extensors and vertical jumping performance. Thirty-five males were allocated to either a control group or one of two training groups, required to perform 72-90 DJ per week for 6 weeks: DJ for maximum rebound height (DJ-H) or DJ for maximum height and minimum ground contact time (DJ-H/t). The subjects were tested before and after the training on leg extensor function for maximum strength and speed-strength under concentric and stretch-shortening cycle muscular actions, and on vertical jumps from a standing position and a run-up. ANOVA with repeated measures showed that a 20% gain in reactive strength (RS) for the DJ-H/t group was significantly greater (p < 0.05) than the other groups, however, this did not transfer to vertical jumping performance. The DJ-H group did not achieve a significant training effect. It was concluded that DJ-H/t method was effective for the development of RS, but training with DJ-H was not intense and/or specific enough to stimulate gains in strength qualities of the leg extensors or jumping performance.

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Foot Orthoses in the Prevention of Injury in Initial Military Training

et al. 2010

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Cassie Wilson

Movement variability and skills monitoring in sports

Coordination variability and skill development in expert triple jumpers

Lower limb joint kinetics in the starting blocks and first stance in athletic sprinting

A Comparison of Drop Jump Training Methods: Effects on Leg Extensor Strength Qualities and Jumping Performance

Foot Orthoses in the Prevention of Injury in Initial Military Training

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