Abstract
Golf is popular worldwide. The complex and asymmetrical motion of golf swings, involving substantial forces and ranges of rotational movement, demands good technique if the player is to perform well while avoiding injury. Biomechanical analyzes can help in maximizing distance and accuracy of golf shots, and reducing injury risk, by providing qualitative and quantitative evidence of body angles, joint forces, and muscle activity patterns. We highlight how lab-based biomechanical studies of the golf swing, using 3D videography, force, electromyography, modelling, and robots, have provided key information regarding the golf swing. With recent advances in technology such as isoinertial devices and wearable sensors, much of this knowledge can now be applied on the golf course. Sports biomechanists are now able to assess and provide relatively real-time feedback on golf swing performance. Golf performance outcome measures from a biomechanics perspective may be categorized as direct (ball displacement, shot accuracy) or indirect (clubhead velocity, clubface angle). The magnitude and direction of the linear clubhead velocity at impact is determined by the angular velocity of the clubhead during the swing and the length of the arm–club system. Golfers must develop a consistent fundamental swing pattern to secure these qualities. Proper proximal to distal sequencing of body rotations is important in the production of high-clubhead velocities in the golf swing. The biomechanist must be able to measure golf performance technique and outcome variables reliably and with accuracy/sensitivity so feedback can be given to golfers and coaches on technique improvement.
This is a preview of subscription content, log in via an institution to check access.
References
Abernethy B, Neal RJ, Moran MJ, Parker AW (1990) Expert-novice differences in muscle activity during the golf swing. In: Cochran AJ (ed) (Chair), E & F N Spon. Symposium conducted at the meeting of the science and golf I: proceedings of the first world scientific congress of golf, London
Alderslade V, Crous LC, Louw QA (2015) Correlation between passive and dynamic range of rotation in lead and trail hips during a golf swing. S Afr J Res Sport Phys Edu Recreat 37(3):15–28
Alexander DL, Kern W (2005) Drive for show and putt for dough?: an analysis of the earnings of PGA tour golfers. J Sport Econ 6(1):46–60
Bačić B, Hume PA (2012) Augmented video coaching, qualitative analysis and post-production using open source software. In: Bradshaw E, Burnett A, Hume PA (eds) (Chair), Australian Catholic University. Symposium conducted at the meeting of the 30th conference of the international society of biomechanics in sports, Melbourne
Ball KA, Best RJ (2007a) Different centre of pressure patterns within the golf stroke I: cluster analysis. J Sports Sci 25(7):757–770
Ball KA, Best RJ (2007b) Different centre of pressure patterns within the golf stroke II: group-based analysis. J Sports Sci 25(7):771–779
Bechler JR, Jobe FW, Pink M, Perry J, Ruwe PA (1995) Electromyographic analysis of the hip and knee during the golf swing. Clin J Sport Med 5:162–166
Bertram C, Guadagnoli MA (2008) The effects of custom-fitted clubs versus “placebo” clubs on golf-swing characteristics. Int J Sports Sci Coach 3:93–98
Betzler NF, Monk SA, Wallace ES, Otto SR (2012) Effects of golf shaft stiffness on strain, clubhead presentation and wrist kinematics. Sports Biomech 11(2):223–238
Bradshaw EJ, Keogh JWL, Hume PA, Maulder P, Nortje J, Marnewick M (2009) The effect of biological movement variability on the performance of the golf swing in high and low handicapped players. Res Q Exerc Sport 80(2):185–196
Brown SJ, Nevill AM, Monk SA, Otto SR, Selbie WS, Wallace ES (2011) Determination of the swing technique characteristics and performance outcome relationship in golf driving for low handicap female golfers. J Sports Sci 29(14):1483–1491
Brown SJ, Selbie WS, Wallace ES (2013) The X-factor: an evaluation of common methods used to analyse major inter-segment kinematics during the golf swing. J Sports Sci 31(11):1156–1163
Cole MH, Grimshaw PN (2008) Electromyography of the trunk and abdominal muscles in golfers with and without low back pain. J Sci Med Sport 11(2):174–181
Cole MH, Grimshaw PN (2009) The X-factor and its relationship to golfing performance. J Quant Anal Sports 5(1):9
Cole MH, Grimshaw PN (2016) The biomechanics of the modern golf swing: implications for lower back injuries. Sports Med 46(3):339–351
Couceiro MS, Dias G, Araújo A, Pereira S (2015) Inputter: concept and evaluation of an engineered golf putter. S Afr J Res Sport, Phys Educ Recreat 37(3):43–54
Delay D, Nougier V, Orliaguet JP, Coello Y (1997) Movement control in golf putting. Hum Mov Sci 16(5):597–619
Delphinus EM, Sayers MGL (2012) Putting proficiency: contributions of the pelvis and trunk. Sports Biomech 11(2):212–222
Egret CI, Vincent O, Weber J, Dujardin FH, Chollet D (2003) Analysis of 3D kinematics concerning three different clubs in golf swing. Int J Sports Med 24(6):465–469
Egret CI, Nicolle B, Dujardin FH, Weber J, Chollet D (2006) Kinematic analysis of the golf swing in men and women experienced golfers. Int J Sports Med 27(6):463–467
Evans K, Horan SA, Neal RJ, Barrett RS, Mills PM (2012) Repeatability of three-dimensional thorax and pelvis kinematics in the golf swing measured using a field-based motion capture system. Sports Biomech 11(2):262–272
Farber AJ, Smith JS, Kvitne RS, Mohr KJ, Shin SS (2009) Electromyographic analysis of forearm muscles in professional and amateur golfers. Am J Sports Med 37(2):396
Fletcher IM, Hartwell M (2004) Effect of an 8-week combined weights and plyometrics training program on golf drive performance. J Strength Cond Res 18(1):59–62
Fradkin AJ, Sherman CA, Finch CF (2004) How well does club head speed correlate with golf handicaps? J Sci Med Sport 7(4):465–472
Glazebrook MA, Curwin S, Islam MN, Kozey J, Stanish WD (1994) An electromyographic analysis and an investigation of intervention strategies. Am J Sports Med 22(8):674–679
Gryc T, Zahalka F, Maly T, Mala L, Hrasky P (2015) Movement’s analysis and weight transfer during the golf swing. J Phys Educ Sport 15(4):781–787
Healy A, Moran KA, Dickson J, Hurley C, Smeaton AF, O’Connor NE, … Chockalingam N (2011) Analysis of the 5 iron golf swing when hitting for maximum distance. J Sport Sci 29(10):1079–1088
Hellström J (2009) Competitive elite golf: a review of the relationships between playing results, technique and physique. Sports Med 39:723–741
Horan SA, Kavanagh JJ (2012) The control of upper body segment speed and velocity during the golf swing. Sports Biomech 11(2):165–174
Horan SA, Evans K, Morris NR, Kavanagh JJ (2010) Thorax and pelvis kinematics during the downswing of male and female skilled golfers. J Biomech 43(8):1456–1462
Horan SA, Evans K, Kavanagh JJ (2011) Movement variability in the golf swing of male and female skilled golfers. Med Sci Sports Exerc 43(8):1474–1483
Horan SA, Evans K, Morris NR, Kavanagh JJ (2014) Swing kinematics of male and female skilled golfers following prolonged putting practice. J Sports Sci 32(9):810–816
Hume PA, Keogh JWL, Reid D (2005) The role of biomechanics in maximising distance and accuracy of golf shots. Sports Med 35(5):429–449
Hume PA, Reid D, Edwards T (2006) Epicondylar injury in sport: epidemiology, type, mechanisms, assessment, management and prevention. Sports Med 36(2):151–170
Jenkins S (2008) Weight transfer, golf swing theory and coaching. Int J Sports Sci Coach 3(0):29–51
Joyce C, Burnett A, Ball K (2010) Methodological considerations for the 3D measurement of the X-factor and lower trunk movement in golf. Sports Biomech 9(3):206–221
Joyce C, Burnett A, Cochrane J, Ball K (2013) Three-dimensional trunk kinematics in golf: between-club differences and relationships to clubhead speed. Sports Biomech 12(2):108–120
Kao J, Pink M, Jobe FW, Perry J (1995) Electromyographic analysis of the scapular muscles during the golf swing. Am J Sports Med 23(1):19–23
Kawashima K, Kato K, Miyazaki M (2003) Body size and somatotype characteristics of male golfers in Japan. J Sports Med Phys Fitness 43(3):334–341
Kenny IC, Wallace ES, Otto SR (2008) Influence of shaft length on golf driving performance. Sports Biomech 7(3):322–332
Keogh JWL, Hume PA (2012) Evidence for biomechanics and motor learning research improving golf performance. Sports Biomech 11(2):288–309
Keogh JWL, Nortje J, Maulder P, Marnewick M, Hume PA, Bradshaw E (2007) Kinematic predictors of golf swing velocity. In: Symposium conducted at the meeting of the 6th Biennial Australia and New Zealand Society of Biomechanics Australasian Biomechanics conference, University of Auckland, Auckland
Keogh JWL, Marnewick MC, Maulder PS, Nortje JP, Hume PA, Bradshaw EJ (2009) Are anthropometric, flexibility, muscular strength, and endurance variables related to clubhead velocity in low- and high-handicap golfers? J Strength Cond Res 23:1841–1850
Kummel J, Kramer A, Gruber G (2014) Robotic guidance induces longlasting changes in the movement pattern of a novel sport-specific motor task. Hum Mov Sci 38:23–33
Kwon Y (2010) Kinematic analysis of sports movements: golf swing plane analysis. Presented at the meeting of the XXVIII international symposium of biomechanics in sports, Marquette
Kwon Y, Han K, Como C, Lee S, Singhal K (2013) Validity of the X-factor computation methods and relationship between the X-factor parameters and clubhead velocity in skilled golfers. Sports Biomech 12(3):231–246
Lim Y-T, Chow JW, Chae W-S (2012) Lumbar spinal loads and muscle activity during a golf swing. Sports Biomech 11(2):197–211
Lynn SK, Frazier BS, New KN, Wu WFW, Cheetham PJ, Noffal GJ (2013) Rotational kinematics of the pelvis during the golf swing: skill level differences and relationship to club and ball impact conditions. Int J Golf Sci 2(2):116–125
Mackenzie SJ, Evans DB (2010) Validity and reliability of a new method for measuring putting stroke kinematics using the TOMI® system. J Sports Sci 28(8):891–899
Marshall RN, McNair PJ (2013) Biomechanical risk factors and mechanisms of knee injury in golfers. Sports Biomech 12(3):221–230
McHardy A, Pollard H (2005) Muscle activity during the golf swing. Br J Sports Med 39:799–804
McLean J (1992) Widen the gap. Golf Mag 34(12):49–53
McNitt-Gray JL, Munaretto J, Zaferiou A, Requejo PS, Flashner H (2013) Regulation of reaction forces during the golf swing. Sports Biomech 12(2):121–131
Meister DW, Ladd AL, Butler EE, Zhao B, Rogers AP, Ray CJ, Rose J (2011) Rotational biomechanics of the elite golf swing: benchmarks for amateurs. J Appl Biomech 27(3):242–251
Najafi B, Lee-Eng J, Wrobel JS, Goebel R (2015) Estimation of center of mass trajectory using wearable sensors during golf swing. J Sports Sci Med 14(2):354–363
Nesbit SM (2005a) A three dimensional kinematic and kinetic study of the golf swing. J Sports Sci Med 4:499–519
Nesbit SM (2005b) Work and power analysis of the golf swing. J Sports Sci Med 4:520–533
Nesbit SM, McGinnis RS (2014) Kinetic constrained optimization of the golf swing hub path. J Sports Sci Med 13(4):859–873
Oliver MH, Horan SA, Evans KA, Keogh JWL (2016) The effect of a seven-week exercise program on golf swing performance and musculoskeletal measures. Int J Sports Sci Coach 11(4):610–618. https://doi.org/10.1177/1747954116654784
Reinkensmeyer DJ, Patton JL (2009) Can robots help the learning of skilled actions? Exerc Sport Sci Rev 37(1):43–51
Robertson SJ, Burnett AF, Newton RU et al (2012) Development of the nine-ball skills test to discriminate elite and high-level amateur golfers. J Sports Sci 30:431–437
Smith AC, Roberts JR, Wallace ES, Pui K, Forrester SE (2016) Two- and three-dimensional methods have been used for analysis of trunk kinematic variables in the golf swing. J Appl Biomech 32(1):23–31
Sprigings EJ, Mackenzie SJ (2002) Examining the delayed release in the golf swing using computer simulation. Sports Eng 5(1):23–32
Sprigings EJ, Neal RJ (2000) An insight into the importance of wrist torque in driving the golf ball: a simulation study. J Appl Biomech 16(4):356–366
Stastny P, Maszczyk A, Tománková K, Kubový P, Richtrová M, Otáhal J, … Cięszczyk P (2015) Kinetic and kinematic differences in a golf swing in one and both lower limb amputees. J Hum Kinet 48(1):33–41
Sweeney M, Mills P, Alderson J, Elliott B (2013) The influence of club-head kinematics on early ball flight characteristics in the golf drive. Sports Biomech 12(3):247–258
Tinmark F, Hellström J, Halvorsen K, Thorstensson A (2010) Elite golfers’ kinematic sequence in full-swing and partial-swing shots. Sports Biomech 9(4):236–244
Torres-Ronda L, Delextrat A, Gonzalez-Badillo JJ (2014) The relationship between physical and fitness requirements in elite golf performance. Int SportMed 15(2):156–164
Wallace ES, Otto SR, Nevill A (2007) Ball launch conditions for skilled golfers using drivers of different lengths in an indoor testing facility. J Sports Sci 25(7):731–737
Watkins RG, Uppal GS, Perry J, Pink M, Dinsay JM (1996) Dynamic electromyographic analysis of trunk musculature in professional golfers. Am J Sports Med 24(4):535–538
Wheat JS, Vernon T, Milner CE (2007) The measurement of upper body alignment during the golf drive. J Sports Sci 25(7):749–755
Williams KR, Sih BL (2002) Changes in golf clubface orientation following impact with the ball. Sports Eng 5(2):65–80
Worobets J, Stefanyshyn D (2012) The influence of golf club shaft stiffness on clubhead kinematics at ball impact. Sports Biomech 11(2):239–248
Worsfold P, Smith NA, Dyson RJ (2008) Low handicap golfers generate more torque at the shoe-natural grass interface when using a driver. J Sports Sci Med 7(3):408–414
Zheng N, Barrentine SW, Fleisig GS, Andrews JR (2008) Swing kinematics for male and female pro golfers. Int J Sports Med 29:965–970
Author information
Authors and Affiliations
Corresponding author
Section Editor information
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG, part of Springer Nature
About this entry
Cite this entry
Hume, P.A., Keogh, J. (2018). Movement Analysis of the Golf Swing. In: Handbook of Human Motion. Springer, Cham. https://doi.org/10.1007/978-3-319-14418-4_137
Download citation
DOI: https://doi.org/10.1007/978-3-319-14418-4_137
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-14417-7
Online ISBN: 978-3-319-14418-4
eBook Packages: EngineeringReference Module Computer Science and Engineering