Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Understanding of biomechanics is important in performance development since each skill has a fundamental mechanical structure. The purpose of this study was to investigate differences in lower limb kinematics during table tennis forehand loop between superior players (SP) and intermediate players (IP). Thirteen male players as superior and thirteen as intermediate participated in this test. A VICON motion analysis system and a Novel Pedar insole plantar pressure measurement system were used to record kinematic and contact area data, respectively. Participants were asked to execute single forehand loop against topspin ball with maximal power. Key findings were that SP showed significantly larger hip flexion and knee external rotation at backward-end and larger hip internal rotation and extension at forward-end compared with IP. Contact areas at both events were larger for SP. In addition, SP showed significantly larger joints angular changing rate during forward swing at the ankle and hip. Results indicated that SP possessed better ability of using lower limb drive in forehand loop.
Czasopismo
Rocznik
Tom
Strony
149--155
Opis fizyczny
Bibliogr. 23 poz., rys., tab., wykr.
Twórcy
autor
- Faculty of Sports Science, Ningbo University, China
autor
- Faculty of Sports Science, Ningbo University, China
autor
- School of Science and Sport, University of the West of Scotland, UK
autor
- Faculty of Sports Science, Ningbo University, China
Bibliografia
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- [4] ELLIOTT B., Biomechanics and tennis, Brit. J. Sport Med., 2006, Vol. 40(5), 392–396.
- [5] ELLIOTT B., FLEISIG G., NICHOLLS R., ESCAMILIA R., Technique effects on upper limb loading in the tennis serve, J. Sci. Med. Sport, 2003, Vol. 6 (1), 76–87.
- [6] ELLIOTT B.C., MARSHALL R.N., NOFFAL G.J., Contributions of upper limb segment rotations during the power serve in tennis, J. Appl. Biomech., 1995, Vol. 11(11), 433–442.
- [7] FLEISIG G., NICHOLLS R., ELLIOTT B., ESCAMILLA R., Kinematics used by world class tennis players to produce highvelocity serves, Sport Biomech., 2003, Vol. 2(1), 51–64.
- [8] FONG D.T.P., HA S.C.W., MOK K.M., CHAN C.W., CHAN K.M., Kinematics Analysis of Ankle Inversion Ligamentous Sprain Injuries in Sports Five Cases From Televised Tennis Competitions, Am. J. Sport Med., 2012, Vol. 40(11), 2627–2632.
- [9] GIRARD O., MICALLEF J.P., MILLET G.P., Influence of restricted knee motion during the flat first serve in tennis, J. Strength Cond. Res., 2007, Vol. 21(3), 950–957.
- [10] GIRARD O., MICALLEF J.P., MILLET G.P., Lower-limb activity during the power serve in tennis: effects of performance level, Med. Sci. Sport Exer., 2005, Vol. 37(6), 1021–1029.
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- [12] IINO Y., KOJIMA T., Kinematics of table tennis topspin forehands: effects of performance level and ball spin, J. Sport Sci., 2009, Vol. 27(12), 1311–1321.
- [13] IINO Y., KOJIMA T., Kinetics of the upper limb during table tennis topspin forehands in advanced and intermediate players, Sport Biomech., 2011, Vol. 10(4), 361–377.
- [14] IINO Y., KOJIMA T., Torque acting on the pelvis about its superior-inferior axis through the hip joints during a tennis forehand stroke, J. Hum. Movement Stud., 2001, Vol. 40(4), 269–290.
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- [18] KRISTIANSLUND E., BAHR R., KROSSHAUG T., Kinematics and kinetics of an accidental lateral ankle sprain, J. Biomech., 2011, Vol. 44(14), 2576–2578.
- [19] MYERS J., LEPHART S., TSAI Y.S., SELL T., SMOLIGA J., JOLLY J., The role of upper torso and pelvis rotation in driving performance during the golf swing, J. Sport Sci., 2008, Vol. 26(2), 181–188.
- [20] REID M., ELLIOTT B., ALDERSON J., Lower-limb coordination and shoulder joint mechanics in the tennis serve, Med. Sci. Sport Exer., 2008, Vol. 40(2), 308–315.
- [21] SEELEY M.K., FUNK M.D., DENNING W.M., HAGER R.L., HOPKINS J.T., Tennis forehand kinematics change as postimpact ball speed is altered, Sport Biomech., 2011, Vol. 10(4), 415–426.
- [22] SEEMILLER D., HOLOWCHAK M., Winning table tennis, Human Kinetics, 1997.
- [23] WALSHE A.D., WILSON G.J., ETTEMA G.J., Stretch-shorten cycle compared with isometric preload: contributions to enhanced muscular performance, J. Appl. Physiol., 1998, Vol. 84(1), 97–106.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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