Biomechanical modelling as a method of studying athlete’s motor actions
DOI:
https://doi.org/10.12775/PPS.2020.06.03.010Keywords
video recording of motor action technique, biomechanical modelling, athletes.Abstract
Topicality. One of the common methods of biological objects study is modelling. Using basic laws of physics, mechanics, mathematics, biology, physiology and other sciences, this method allows explaining the functional structure of the studied process, identifying its significant connection with external objects, internal organization, and evaluating quantitative characteristics. The model is referred as to such a mentally represented or materially realized system, which, reflecting or reproducing the object of study, is able to replace it so that its study gives new information about this object. The search for an analogue for the original is possible on the basis of the following types of models as deterministic models, i.e. models based on systems of algebraic, regression and differential equations, equations in partial derivatives; statistical models that predict the probability of various events. The task of the research is to conduct a comparative biomechanical analysis of a side kick performing technique at close reach by athletes of different qualification who specialize in hand-to-hand combat and on this basis to determine the model characteristics of sport technique. Research methods. To achieve the set tasks, we have applied such research methods as analysis of scientific and methodological literature as well as documentary materials, methods of registration and analysis of athlete's movements (system of video recording and analysis of athlete's movements, 3D recording of human movements "Qualisys Motion Capture"). The results obtained during the study have been processed with the help of mathematical statistics methods. Results of the research. It should be noted that the surveyed skilled athletes who specialize in hand-to-hand combat do not apply a preparatory phase of acceleration, as it is characteristic for highly skilled athletes. After the initial position, qualified athletes perform a forward movement in the course of a future blow. For highly skilled athletes a counter-movement is typical – first backwards (that increases the path and creates the conditions for clearer twisting), afterwards there are a few moments of movement forward with active pelvis movement thus overtaking the shoulder axis by the pelvic axis. Conclusions. Highly skilled athletes have a fairly high consistency of the inclusion of individual bio-links when performing a side hook with the help of the hand at close reach. At the same time, a slight advance of the elbow joint maximum speed at the time of strike indicates the need for further work on the technique of masters of sports. Significant reserves in this regard are available to qualified athletes, namely there is usually no preliminary phase associated with the pelvis and shoulder joint movements of the athlete who beats back after taking the initial position (in strike actions this phase is called swing or propulsion); there is an inconsistent inclusion of individual bio-links in the work, as evidenced by the dynamics of changes in the resulting rate of individual bio-links.References
Wako I. Kilkisna biomechanical characteristic of the basic technique of hand-to-hand combat cadets in the process of special physical training. 2015.17.33–38.
Wako I. І. Special features of hand-to-hand combat techniques in the process of special physical training of cadets Science hour writing of the National Pedagogical University named after M. P. Dragomanov (Ser. No. 15: Scientific and pedagogical problems of physical culture / physical sports) for culture G.M. Arzyutova. - K.: NPU imene M. P. Dragomanova, 2015.6 (62) .17–20.
Voronov AV. Imitating biomechanical modeling as a method for studying human motor actions. Theory and practice of physical culture. 2004; 2: 36-40.
Gaverdovsky SK. Sports training. Biomechanics. Methodology. Didactics. Moscow: Physical Culture and Sports; 2007.912 s.
Gamalium VV. Theoretical and methodological foundations for modeling the technique of motor actions in sports. Kiev: Polygraphservice; 2013.300 s.
Hirak A., Grygus I. Strukturno-funktsionalna model shkoly karate hodziu-riu. Visnyk Prykarpatskoho universytetu. Seriia: Fizychna kultura, 2017. Vyp. 25-26. C. 60-65.
Hirak A.M., Grygus I.M. Rozvytok tradytsiinoho karate na Rivnenshchyni yak innovatsiinoi tekhnolohii fizychnoho vykhovannia. Zdorov'e dlya vsekh: materialy VII mezhdunarodnoj nauchno-prakticheskoj konferencii, UO “Polesskij gosudarstvennyj universitet”. Ministerstvo obrazovaniya Respubliki Belarus' [i dr.]; redkol.: K.K. SHebeko [i dr.]. Pinsk: PolesGU, 2017. S. 19-24.
Kashuba VA, Khmelnitskaya IV Modern optical-electronic methods of measuring and analyzing motor actions of highly qualified athletes Science in Olympus. sports. 2005.2. 137-146.
Kashuba VO, Litvinenko SE. Suchasnі biomechanіchnіchnі ergogenіnі work in sport. Sports visnik of Pridniprov'ya. 2010; (3): 4-6.
Kashuba VA, Litvinenko YuV, Danilchenko VA. Simulation of movements in sports training. Physical education of students. 2010; (4): 40-4.
Kashuba VA, Litvinenko YV, Zarudny VYu, Belenko SS. Biomechanical aspects of percussion techniques in martial arts. Theory and methodology of physical culture. 2012; 4 (31): 90-6.
Kashuba VA, Litvinenko YuV, Yukhno YuA, Zarudny VYu, Belenko SS. Theoretical and practical aspects of the use of optical-electronic systems for registration of movements in biomechanical analysis of sports equipment. Young Science Visnik Skhidnoevrop. nat. un-tu im. Lesi Ukrainka. 2013; (9): 7-15.
Kashuba VA, Litvinenko YuV, Gordeeva MV, Zarudny VYu. Biomechanics of sports movements and modern video computer methods of their control. Theory and methodology of physical culture. 2013; 4 (35): 31-7.
Kashuba VA. On the issue of the use of modern technologies in sports training. Physical behavior and sport: magazine / way. A. V. Ts'os, A. I. Aloshin. - Lutsk: Skhidnoevrop. nat. un-t im. Lesi Ukrainka, 2015.19.171-183.
Kashuba VA. Innovative technologies in modern sports Sports Visnik of Pridniprov'ya – a scientific and practical journal of the Dnipropetrovsk State Institute of Physical Culture and Sports. 2016. 1.46-57.
Kashuba VA, Gordeeva MV, Zhuk AA, Rizatdinova AS, Litvinenko YuV. The program for improving the efficiency of motor actions technique in sports with a complex coordination structure of movement. In: Știinţa culturii fizice. Revistă teoretico-știinţifică. No. 27/1. Сhisinau: Universitatea de Stat de Educaţie Fizică și Sport, Publicaţie știinţifi că recenzată (Categoria „C”); 2017.93-8.
Litvinenko Yu.V. Regulation of the position of athletes in smart minds of static and dynamic style of life: monograph. Lutsk: Vezha-Druk; 2018.324 p.
Popov GI, Samsonova AV. Biomechanics of motor activity: textbook. for stud. institutions of higher. prof. Education M., 2013.320 p.
Damask VA. Modeling and philosophy. L., 1966.275 p.
Yaremenko VV. Research of kinematic characteristics of basic attacking technical actions of young freestyle wrestlers. Physical education of students, 2014. 2.56–60.
Kashuba V., Stepanenko O., Byshevets N., Kharchuk O., Savliuk S., Bukhovets B., Grygus I., Napierała M., Skaliy T., Hagner-Derengowska M., Zukow W. (2020). The Formation of Human Movement and Sports Skills in Processing Sports-pedagogical and Biomedical Data in Masters of Sports. International Journal of Human Movement and Sports Sciences, 8(5): pp. 249–257. DOI: 10.13189/saj.2020.080513
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