Comparison of centre of gravity and centre of pressure patterns in the golf swing |
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| Authors: | Aimée C Smith Jonathan R Roberts Pui Wah Kong Stephanie E Forrester |
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| Institution: | 1. Sports Technology Institute, Loughborough University, Loughborough, UK;2. Institute for Sports Research, Nanyang Technological University, Singapore, Singaporea.c.smith@lboro.ac.uk;4. Physical Education &5. Sports Science Academic Group, National Institute of Education, Nanyang Technological University, Singapore, Singapore |
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| Abstract: | Analysing the centre of pressure (COP) and centre of gravity (COG) could reveal stabilising strategies used by golfers throughout the golf swing. This study identified and compared golfers’ COP and COG patterns throughout the golf swing in medial–lateral (ML) and anterior–posterior (AP) directions using principal component analysis (PCA) and examined their relationship to clubhead velocity. Three-dimensional marker trajectories were collected using Vicon motion analysis and force plate data from two Kistler force plates for 22 low-handicap golfers during drives. Golfers’ COG and COP were expressed as a percentage distance between their feet. PCA was performed on COG and COP in ML and AP directions. Relationships between principal component (PC) scores were examined using Pearson correlation and regression analysis used to examine the relationship with clubhead velocity. ML COP movements varied in magnitude (PC1), rate of change and timing (PC2 and PC3). The COP and COG PC1 scores were strongly correlated in both directions (ML: r?=?0.90, P?<?.05; AP: r?=?0.81, P?<?.05). Clubhead velocity, explained by three PCs (74%), related to timing and rate of change in COPML near downswing (PC2 and PC3) and timing of COGML late backswing (PC2). The relationship between COPML and COGML PC1 scores identified extremes of COP and COG patterns in golfers and could indicate a golfer’s dynamic balance. Golfers with earlier movement of COP to the front foot (PC2) and rate of change (PC3) patterns in ML COP, prior to the downswing, may be more likely to generate higher clubhead velocity. |
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| Keywords: | Biomechanics force plate balance principal component analysis performance golf |
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