Interactive sensor technologies in the training of athletes of the children's department of the student sports club
ˑ:
PhD V.E. Vasyuk1
Graduate student Ren Yichen1
PhD, Associate Professor V.V. Bakaev2
PhD D.A. Lukashevich1
T.V. Karaseva2
1Belarussian National Technical University, Minsk
2Peter the Great St. Petersburg Polytechnic University, St. Petersburg
Objective of the study was to substantiate the effectiveness of the use of interactive sensory technologies in motor-cognitive training of young athletes.
Methods and structure of the study. Taekwondo athletes aged 11-12 (n=45) from the children's department of the sports club of the Belarusian National Technical University took part in the scientific work. A sample of athletes was formed with a random division into the control (n=22) and experimental group (n=23). The control group trained according to the standard program using traditional training aids, and the athletes of the experimental group additionally trained twice a week for two months according to the program using training aids based on interactive sensory technologies.
Results and conclusions. The results of the study showed that the practice of performing training tasks in conditions close to the specifics of a sport using sensor technologies makes it possible to achieve positive changes in the development of the motor-cognitive potential of athletes at the stages of early sports improvement. The results obtained allow us to conclude that the use of sensory technologies in controlled interactions of athletes is of high practical value, which reflects significant improvements in the performance of the participants in the experiment in all key parameters characterizing the effectiveness of motor actions in test tasks with different coordination complexity.
Keywords: cognitive abilities, motor abilities, controlled training environment.
References
- Afonshin V.E., Popechitelev E.P. Biotekhnicheskiy kompleks podgotovki sportsmenov v interaktivnoy polimediynoy vneshney srede [Biotechnical complex for training athletes in an interactive polymedia environment]. Simvol nauki. 2016. No. 1. pp. 18-26.
- Lukashevich D.A., Paramonova N.A., Xue Li Genezis tekhnologiy otsenki sposobnostey detey v sportivnom otbore [Genesis of technologies for assessing the abilities of children in sports selection]. Uchenye zapiski. 2022. No. 25. pp. 60-68.
- Basevitch I., Boiangin N., Sáenz-Moncaleano C. Mobile technologies and perceptual-cognitive training. Advancements in Mental Skills Training. Routledge, 2020. pp. 123-134.
- Collins, L.F., Long C.J. Visual reaction time and its relationship to neuropsychological test performance. Archives of clinical neuropsychology. 1996. Vol. 11, iss. 7. pp. 613-623.
- de Joode T., Tebbes D.J.J., Savelsbergh G.J.P. Game Insight Skills as a Predictor of Talent for Youth Soccer Players. Frontiers in Sports and Active Living. 2021. Vol. 2. p. 609112.
- Renshaw I. et al. Evaluating weaknesses of «perceptual-cognitive training» and «brain training» methods in sport: An ecological dynamics critique. Frontiers in psychology. 2019. Vol. 9. pp. 2468-2482.
- Komaini A. et al. Motor Learning Measuring Tools: A Design and Implementation Using Sensor Technology for Preschool Education. International Journal of Interactive Mobile Technologies. 2021. Vol. 15, iss. 17. pp. 177-191.
- Murr D., Larkin P., Höner O. Decision-making skills of high-performance youth soccer players. German Journal of Exercise and Sport Research. 2021. Vol. 51, iss. 1. pp. 102-111.
- Ehmann P. et al. Perceptual-cognitive performance of youth soccer players in a 360-environment-Differences between age groups and performance levels. Psychology of Sport and Exercise. 2022. Vol. 59. p. 102-120.
- Kalén A. et al. The role of domain-specific and domain-general cognitive functions and skills in sports performance: A meta-analysis. Psychological bulletin. 2021. Vol. 147, iss. 12. pp. 1290-1308.
- Broadbent D.P. et al. Training perceptual-cognitive expertise: How should practice be structured? Anticipation and Decision Making in Sport. Routledge, 2019. pp. 286-305.