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Biomechanical analysis of the golf swing: methodological effect of angular velocity component on the identification of the kinematic sequence

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The golf swing is a complex whole-body motion for which a proximal-to-distal transfer of the segmental angular velocities from the pelvis to the club is believed to be optimal for maximizing the club head linear velocity. However, previous experimental results about such timing (or kinematic sequence) are contradictory. Nevertheless, methods that were used in these studies differed significantly, in particular, those regarding the component of the angular velocity vector selected for the identification of the kinematic sequence. Hence, the aim of this study was to investigate the effect of angular velocity vector component selection on the identified kinematic sequence. Methods: Thirteen golfers participated in this study and performed driver swings in a motion capture laboratory. Seven methods based on different component selection of segmental angular velocities (vector norm, component normal-to-sagittal, frontal, transversal and swing planes, segment longitudinal component and a method mixing longitudinal and swing plane components) were tested. Results: Results showed the critical influence of the component chosen to identify the kinematic sequence with almost as many kinematic sequences as the number of tested methods for every golfer. Conclusion: One method seems to show the strongest correlation to performance but none of them can be assessed as a reference method for the identification of the golf swing kinematic sequence. Regarding the limited time lag between the different peak occurrences and the uncertainty sources of current materials, development of simulation studies would be more suitable to identify the optimal kinematic sequence for the golf swing.
Rocznik
Strony
115--120
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr.
Twórcy
  • Arts et Metiers ParisTech, Institut de Biomecanique Humaine Georges Charpak, Paris, France
  • Arts et Metiers ParisTech, Institut de Biomecanique Humaine Georges Charpak, Paris, France
  • Hôpital Avicenne, Université Paris, Bobigny, France
  • Arts et Metiers ParisTech, Institut de Biomecanique Humaine Georges Charpak, Paris, France
  • Fédération Française de golf, Perret, France
  • Arts et Metiers ParisTech, Institut de Biomecanique Humaine Georges Charpak, Paris, France
  • Arts et Metiers ParisTech, Institut de Biomecanique Humaine Georges Charpak, Paris, France
Bibliografia
  • [1] BOURGAIN M., HYBOIS S., THOREUX P., ROUILLON O., ROUCH P., SAURET C., Effect of shoulder model complexity in upper-body kinematics analysis of the golf swing, J. Biomech. [Internet]. 2018, 75, 154–158, Available from: https://doi.org/10.1016/j.jbiomech.2018.04.025.
  • [2] BOURGAIN M., Analyse Biomécanique du swing de golf, ENSAM, 2018.
  • [3] CHEETHAM P.J., ROSE G.A., HINRICHS R.N., NEAL R.J., MOTTRAM R.E., HURRION P.D. et al. Comparison of Kinematic Sequence Parameters between Amateur and Professional Golfers, Sci. Golf V., 2008, 30–36.
  • [4] COLEMAN S.G.S., RANKIN A.J., A three-dimensional examination of the planar nature of the golf swing, J. Sports Sci., 2005, 23(3), 227–234.
  • [5] DELP S.L., ANDERSON F.C., ARNOLD A.S., LOAN P., HABIB A., JOHN C.T. et al., OpenSim: Open-Source Software to Create and Analyze Dynamic Simulations of Movement, 2007, 54 (11), 1940–1950.
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  • [7] FERDINANDS R.E.D., KERSTING U.G., MARSHALL R.N., A twenty--segment kinematics and kinetics model for analysing golf swing mechanics, Sport Technol. [Internet]. 2013, 6 (4), 184–201, Available from: http://www.tandfonline.com/doi/full/10.1080/19346182.2013.854799.
  • [8] FRADKIN A.J., SHERMAN C.A., FINCH C.F., Improving golf performance with a warm up conditioning programme, Br. J. Sport Med., 2004, 38, 762–765.
  • [9] HORAN S.A., KAVANAGH J.J., The control of upper body segment speed and velocity during the golf swing, Sport Biomech., 2012, 11 (2), 165–174.
  • [10] KWON Y.-H., COMO C.S., SINGHAL K., LEE S., HAN K.H., Assessment of planarity of the golf swing based on the functional swing plane of the clubhead and motion planes of the body points, Sport Biomech., 2012, Jun., 11 (2), 127–148.
  • [11] LU T.W., O’CONNOR J.J., Bone position estimation from skin marker co-ordinates using global optimisation with joint constraints, J. Biomech., [Internet]. 1999, Feb 1, [cited 2018, Jul. 18], 32 (2), 129–134. Available from: https://www.sciencedirect.com/science/ article/pii/S0021929098001584.
  • [12] MACKENZIE S.J., SPRIGINGS E.J., A three-dimensional forward dynamics model of the golf swing, Sport Eng., 2009, 11 (4), 165–175.
  • [13] NEAL R., LUMSDEN R., HOLLAND M., MASON B., Body Segment Sequencing and Timing in Golf, Int. J. Sport Sci. Coach., 2007, 2, 25–36.
  • [14] PUTNAM C.A., Sequential Motions of Body Segments in Striking and Throwing Skills: Descriptions and Explanations, J. Biomech., 1993, 26, 125–135.
  • [15] RAABE M.E., CHAUDHARI A.M.W., An investigation of jogging biomechanics using the full-body lumbar spine model: Model development and validation, J. Biomech., [Internet], 2016, 49 (7), 1238–1243. Available from: http://dx.doi.org/10.1016/j.jbiomech.2016.02.046.
  • [16] SETH A., MATIAS R., VELOSO A.P., DELP S.L., A biomechanical model of the scapulothoracic joint to accurately capture scapular kinematics during shoulder movements, PLoS One, 2016, 11 (1), 1–18.
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  • [18] SPRIGINGS E.J., NEAL R.J., An insight into the importance of wrist torque in driving the golfball: a simulation study, Regard sur l’importance de la force du poignet dans la frappe de la balle de golf: une etude de simulation. J. Appl. Biomech., [Internet], 2000, 16 (4), 356–366, Available from: http://articles.sirc.ca/ search.cfm?id=S-669626%5Cnhttp://proxy.lib.ohio-state.edu/login?url=http://search.ebscohost.com/login.aspx?direct=true&db=s3h&AN=SPHS-669626&site=ehost-live%5Cnhttp://www.humankinetics.com/
  • [19] TEU K.K., KIM W., FUSS F.K., TAN J., The analysis of golf swing as a kinematic chain using dual Euler angle algorithm, J. Biomech., 2006, 39 (7), 1227–1238.
  • [20] TINMARK F., HELLSTRÖM J., HALVORSEN K., THORSTENSSON A., Elite golfers’ kinematic sequence in full-swing and partial-swing shots, Sport Biomech., [Internet], 2010, 9 (4), 236–244, Available from: http://www.tandfonline.com/doi/abs/10.1080/14763141.2010.535842.
  • [21] VENA A., BUDNEY D., FOREST T., CAREY J.P., Three-dimen sional kinematic analysis of the golf swing using instantaneousscrew axis theory, part 1: Methodology and verification, Sport Eng., 2011, 13 (3), 105–123.
  • [22] WHITE R., On the efficiency of the golf swing, Am. J. Phys., [Internet], 2006, 74 (12), 1088–1094, Available from: http://aapt.scitation.org/doi/10.1119/1.2346688.
  • [23] WU G., CAVANAGH P.R., ISB Recommendations in the Reporting for Standardization of Kinematic Data, J. Biomech., 1995, 28 (10), 1257–1261.
  • [24] WU G., VAN DER HELM F.C.T., VEEGER H.E.J., MAKHSOUS M., VAN ROY P., ANGLIN C. et al., ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion – Part II: Shoulder, elbow, wrist and hand, J. Biomech., 2005, 38 (5), 981–992.
  • [25] WU G., SIEGLER S., ALLARD P., KIRTLEY C., LEARDINI A., ROSENBAUM D. et al., ISB recommendation on definitions of joint coordinate system of various joints for the reporting of human joint motion – part I: ankle, hip, and spine, J. Biomech., [Internet], 2002, 35(4), 543–8. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0021929001002226.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-44dbc1a3-181c-46f0-be9c-71b8c9eb1f57
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