Method of non-contact remote determination of the current functional state of the athlete

Authors

  • Vadym Artemiev
  • Valeriy Druz
  • Andrii Yefremenko

Keywords:

contactless control, fatigue, mathematical modeling, rationalism method

Abstract

Purpose: development of a non-contact method for monitoring the current functional state in the process of the direct implementation of professional activities.

Materials & Methods: analysis of scientific and methodological literature; biomechanical analysis of kinematic, dynamic and static characteristics of motor activity; computer simulation of the dynamics of interaction of controlled indicators; methods of mathematical statistics.

Results: based on the results, their analytical dependencies were determined, on the basis of which the corresponding mathematical models were built. They allow you to study the dynamics of the interdependence of controlled parameters in the expected modes of their interaction without the participation of the object of study.

Conclusions: analytical patterns that describe the interdependence of the biomechanics of motor activity and mathematical models of reflection, as well as modern means of video recording and computer processing, provide an advantage for an effective assessment of the motor activity of an individual.

References

Brazil, A., Exell, T., Wilson, C., Willwacher, S., Bezodis, J. & Irwin, G. (2016), "Lower limb joint kinetics in the starting blocks and first stance in athletic sprinting", Journal of Sports Sciences, No. 30(2), pp. 1-7.

Ciacci, S., Merni, F., Bartolomei, S. & Di Michele, R. (2016), "Sprint Start Kinematics During Competition in Elite and World-Class Male and Female Sprinters", J Sports Sci, No. 41(6), pp. 1-9.

Čoh, M. & Žvan, M. (2015). "Differences between the elite and sub-elite athletes in kinematic and dynamic variables of sprint – start", Research in Physical Education, Sport & Health, No. 4(2), pp. 3-6.

Druz, V., Iermakov, S., Pugach, Ya., Shesterova, L., Zukow, W. & Cieślicka M. (2016), "Kinematic characteristics of a sprinting technique and morphofunctional structures of its providing", Journal of Education, Health and Sport, No. 6 (11), pp. 271-280.

Kampmiller, T., Vanderka, M., Šelinger, P., Šelingerová, M. & Čierna, D. (2011), "Kinematic parameters of the running stride in 1 – to 18-yeard-old youth, KinSi, No. 17, pp. 63-75.

Lehmann, F. & Voss, G. (1997), Innovationen fur den Sprint und Sprung: «ziehende» Gestaltung dez Stiitzphasen", Tiel 1, Leistun-gssport, No. 176, pp. 65-72.

Luhtanen, P. & Komi P.V. (1980), "Force, power-and elasticity-velocity relationship in walking, running and jumping", Europen Journal of Applied Physiology, No. 1744(3), pp. 279-289.

Samsonkin, V. & Petinov, Y. (2016), "Development of the method of efficient monitoring of the main activity of a train driver", Eastern-European Journal of Enterprise Technologies, No. 1781, pp. 52-58.

Slawinski, J., Houel, N., Bonnefoy-Mazure, A., Lissajoux, K., Bocquet, V. & Termoz, N. (2017), "Mechanics of standing and crouching sprint starts", Journal of Sports Sciences, No. 1735(9), pp. 858-865.

Omelko, R., Fostiak, M. & Maćkała, K. (2018), "Analysis of step kinematics during maximum speed of 60 m sprint performance", Journal of Education, Health and Sport, No. 178(10), pp. 227-235.

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Published

2020-02-29

Issue

Vol. 8 No. 1 (2020)

Section

Статті

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