Stereophotogrammetry measurement of kinematic target effect as speed accuracy benchmark indicator for kicking performance in martial arts

• Autorzy: Wąsik Jacek , Mosler Dariusz , Ortenburger Dorota , Góra Tomasz

Identyfikatory

DOI

10.37190/ABB-01926-2021-06

• Języki publikacji: EN

Abstrakty

EN

Purpose: The development of a motion capture system leads to fast and accessible ways of precise testing of athletes and their motor abilities. The striking performance in martial arts and combat sports requires measuring velocity in the context of successful contact with the target. The aim of this study was to present the novel kinematic target effect coefficient and its possible use as a speed accuracy benchmark of performance based on the example of taekwon-do roundhouse and frontal kicks. Methods: The stereophotogrammetry motion capture setup consists of 10 infrared cameras (NIR Vicon MX-T40). Analysis includes 180 kicks (roundhouse and frontal kicks) performed by 15 adult participants on a master level in taekwon-do. The kinematic target effect comparison includes two targets – a training shield and a table tennis ball hanging from the ceiling. Markers were placed on the lower extremities of participants. Spatial-temporal variables were registered for both kicking legs, techniques, and target types. Results: Both roundhouse and frontal kicks revealed target and marker dependent differences during its execution. The kinematic target effect coefficient values differ for the specific marker and kick type. Conclusion: The wireless motion capture systems could be helpful in the training process and an athlete’s evaluation before sports competitions.

Słowa kluczowe

EN

motion capture; strike velocity; performance analysis

PL

przechwytywanie ruchu; prędkość uderzenia; analiza wydajności

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2021
• Tom: Vol. 23, no. 4
• Strony: 117--125
• Opis fizyczny: Bibliogr. 29 poz., rys., tab.

Twórcy

autor

Wąsik Jacek

• Department of Kinesiology and Health Prevention, Jan Dlugosz University in Czestochowa, Częstochowa, Poland

autor

Mosler Dariusz

• Department of Kinesiology and Health Prevention, Jan Dlugosz University in Czestochowa, Częstochowa, Poland

autor

Ortenburger Dorota

• Department of Kinesiology and Health Prevention, Jan Dlugosz University in Czestochowa, Częstochowa, Poland

autor

Góra Tomasz

• Department of Kinesiology and Health Prevention, Jan Dlugosz University in Czestochowa, Częstochowa, Poland

Bibliografia

• [1] AANDAHL H.S., VON HEIMBURG E., VAN DEN TILLAAR R., Effect of postactivation potentiation induced by elastic resistance on kinematics and performance in a roundhouse kick of trained martial arts practitioners, J. Strength. Cond. Res., 2018, 32, 990–996, DOI: 10.1519/jsc.0000000000001947.
• [2] ABIDIN N.Z., ADAM M.B., Prediction of vertical jump height from anthropometric factors in male and female martial arts athletes, Malays, J. Med., Sci., 2013, 20, 39–45.
• [3] ABRAHAM C., KINGMAN J., DYSON R., Maximum velocity of the striking leg during the martial arts front, side and turning kicks and the relationship to technique duration, 19 Int. Symp. Biomech. Sport, 2001, 158–161.
• [4] AKSOY D., Effects of 10-Week Whole Body Vibration Training on Strength, Flexibility and Agility in Taekwondo Athletes, J. Educ. Learn., 2019, 8, 213, DOI: 10.5539/ jel.v8n2p213.
• [5] ANDERSON D.I., LOHSE K.R., LOPES T.C.V., WILLIAMS A.M., Individual differences in motor skill learning. Past, present and future, Hum. Mov. Sci., 2021, 78, 102818, DOI: 10.1016/ j.humov.2021.102818.
• [6] BING W.-C., KIM S.-J., A Phenomenological Study of Mental Health Enhancement in Taekwondo Training: Application of Catharsis Theory, Int. J. Environ. Res. Public. Heal., 2021, 18 (8), 4082, DOI: 10.3390/ijerph18084082.
• [7] BLAIS L., TRILLES F., LACOUTURE P., Three-dimensional joint dynamics and energy expenditure during the execution of a judo throwing technique (Morote Seoï Nage), J. Sports. Sci., 2007, 25, 1211–1220, DOI: 10.1080/02640410600982204.
• [8] BURKE D., The Kicking Process in Tae Kwon Do: A Biomechanical Analysis, Int. Phys. Med. Rehabil. J., 2017, 1, 8–13, DOI: 10.15406/ipmrj.2017.01.00002.
• [9] CHUNG B.-K., JOHNSON J.A., Taekwondo Poomsae Competitor Perceptions of the Official and New Competition Poomsae, Field of Play, and Competition Rules, 2019.
• [10] GAVAGAN C.J., SAYERS M.G.L., A biomechanical analysis of the roundhouse kicking technique of expert practitioners: A comparison between the martial arts disciplines of Muay Thai, Karate, and Taekwondo, PLoS One, 2017, 12, 1–15, DOI: 10.1371/journal.pone.0182645.
• [11] HEIDARIAN S., AMIRI A., ASHRAF JAMSHIDI A., The Effects of Muscular Flexibility and Strength Imbalance on Lower Limb Injuries in Female Martial Arts Athletes, Func. Disabil. J., 2018, 1, 37–46, DOI: 10.30699/fdisj.01.2.37.
• [12] HSIEH A., The biomechanical analysis of roundhouse kick in taekwondo, 30th Annu. Conf. Biomech. Sport. – Melb., 2012, 196–199.
• [13] KIM Y.K., KIM Y.H., IM S.J., Inter-joint coordination in producing kicking velocity of Taekwondo kicks. J. Sport. Sci. Med., 2011, 10, 31–38.
• [14] LANDEO R., MCINTOSH A.S., Kinetic and Kinematic Differences Between Target and Free Kicking in Taekwondo, 26 Int. Conf. Biomech. Sport, 2008, 187–190.
• [15] MARTINEZ R., MICHAUD B., BEGON M., Pyomeca: An OpenSource Framework for Biomechanical Analysis, J. Open Source Softw., 2020, 5, 2431, DOI: 10.21105/joss.02431.
• [16] NABER M., MURPHY P., Pupillometric investigation into the speed-accuracy trade-off in a visuo-motor aiming task, Psychophysiology, 2020, 57, 1–14, DOI: 10.1111/ psyp.13499.
• [17] NETO O.P., MAGINI M., SABA M.M.F., PACHECO M.T.T., Comparison of force, power, and striking efficiency for a Kung Fu strike performed by novice and experienced practitioners: Preliminary analysis, Percept. Mot. Skills., 2008, 106, 188–196, DOI: 10.2466/PMS.106.1.188-196.
• [18] NETO O.P., SILVA J.H., MARZULLO A.C.D.M., BOLANDER R.P., BIR C.A., The effect of hand dominance on martial arts strikes, Hum. Mov. Sci., 2012, 31, 824–833, DOI: 10.1016/ j.humov.2011.07.016.
• [19] O’SULLIVAN D.M., FIFE G.P., Impact attenuation of protective boxing and taekwondo headgear, Eur. J. Sport. Sci., 2016, 16, 1219–1225, DOI: 10.1080/17461391.2016.1161073.
• [20] PYCIARZ T., Analysis of sport fight structure in taekwondo during the Olympics in Beijing in 2008 and Senior World Championships in 2009 in terms of technical skills after regulation amendments and implementation of the electronic system of score recording, J. Combat Sport Martial Arts, 2011, 2, 109–115, DOI: 10.5604/20815735.1047143.
• [21] QUINZI F., SBRICCOLI P., ALDERSON J., DI MARIO A., CAMOMILLA V., Intra-limb coordination in karate kicking: Effect of impacting or not impacting a target, Hum. Mov. Sci., 2014, 33, 108–19, DOI: 10.1016/j.humov.2013.07.021.
• [22] SKUBLEWSKA-PASZKOWSKA M., DEKUNDY M., LUKASIK E., SMOLKA J., Analysis of two methods indicating the shoulder joint angles using three dimensional data, Phys. Act. Rev., 2018, 6, 37–44, DOI: 10.16926/par.2018.06.06.
• [23] TABBEN M., COQUART J., CHAABNE H., FRANCHINI E., CHAMARI K., TOURNY C., Validity and Reliability of a New Karate-Specific Aerobic Field Test for Karatekas, Int. J. Sports. Physiol. Perform., 2014, 9, 953–958, DOI: 10.1123/ ijspp.2013-0465.
• [24] TORNELLO F., CAPRANICA L., MINGANTI C., CHIODO S., CONDELLO G., TESSITORE A., Technical-Tactical Analysis of Youth Olympic Taekwondo Combat, J. Strength. Cond. Res., 2014, 28 (4), 1151–1157, DOI: 10.1519/JSC. 0000000000000255.
• [25] WĄSIK J., Modern machines for special techniques event in Taekwon-do ITF, Ido. Mov. Cult., 2009, 9, 226–230.
• [26] WĄSIK J., GÓRA T., Impact of target selection on front kick kinematics in taekwondo – pilot study, Phys. Act. Rev., 2016, 4, 57–61, DOI: 10.16926/par.2016.04.07.
• [27] WĄSIK J., SHAN G., Kinematics of the turning kick – Measurements obtained in testing well-trained taekwon-do athletes, Arch. Budo., 2015, 11, 61–67.
• [28] WĄSIK J., SHAN G., Target effect on the kinematics of Taekwondo Roundhouse Kick – Is the presence of a physical target a stimulus, influencing muscle-power generation?, Acta Bioeng. Biomech., 2015, 17, 115–120, DOI: 10.5277/ ABB-00229-2014-02.
• [29] ZEMKOVÁ E., Science and practice of core stability and strength testing, Phys. Act. Rev., 2018, 6, 181–193, DOI: 10.16926/PAR.2018.06.23.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).