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MODEL OF FUNCTIONAL READINESS OF POLE VAULTERS

Biological Sciences , UDC: 796.012.414.62 DOI: 10.25688/2076-9091.2024.53.1.03

Authors

Gapicheva Maria Andreevna

Annotation

The sport of higher achievements makes the limit requirements for the functional state of the body. To optimize training and competitive actions, it is necessary to numerically express the parameters of the functional activity of the body systems, determined in accordance with the narrowly focused specifics of the sport and the performance of a competitive exercise. Studies using modeling in the field of sports can reflect various aspects of training, such as: a model of the research base, a model of the biomechanics of competitive action, a model of the functional capabilities of individual systems of the body. Anthropological and morphometric models are actively used in complex coordination and highspeed power sports, in particular in pole vaulting. However, a generalized system reflecting the relationship between the functional state of a pole vaulter based on a comprehensive assessment of athlete systems was not presented earlier, and is an urgent area of research, given the prestige of this sport on the world stage. The purpose of the study is to identify model parameters of the functional readiness of a pole vaulter. The study was conducted at the Sports Science Research Center of SUSU. The study involved 14 pole vaulters aged 17 to 25 years, at the stage of specialization and higher sportsmanship. The functional characteristics of the body of pole vaulters were assessed through the use of bioimpedansometry, topography, stabilometry, as well as polydinamometry. Based on the obtained research indicators, a digital database was formed. Statistical processing of data was carried out using IBM SPSS Statistics 26. According to the results of the study, a model of functional fitness was developed, reflecting the numerical expression of physiological parameters in relation to the sports result of a certain level. The presented results allow for timely correction of the athlete’s physiological state to optimize training, prevent the influence of negative factors of overtraining and maximize the realization of the motor potential of a pole vaulter.

Tags:

Athlete , functional fitness , pole vaulters , модель

How to link insert

Gapicheva, M. A. (2024). MODEL OF FUNCTIONAL READINESS OF POLE VAULTERS Bulletin of the Moscow City Pedagogical University. Series "Pedagogy and Psychology", № 1 (53), 36. https://doi.org/10.25688/2076-9091.2024.53.1.03

References

1. 1. Bykov E. V. Features of the functional fitness of athletes of cyclical sports with different specifics of the training process / E. V. Bykov, O. V. Balberova, A. V. Chipyshev et al. // Bulletin of the Moscow State Pedagogical University “Natural Sciences”. 2020. № 2 (38). P. 78–89. (In Russ.). DOI: 10.25688/2076-9091.2020.38.2.7

2. 2. Davydova S. G. New equations of state for a one-dimensional model of hemodynamics based on physiological data // MNSK – 2018: Mathematics. Materials of the 56th International. scientific. student conf. 2018. P. 63. (In Russ.). URL: https://www.elibrary.ru/download/elibrary_36381496_84296090.pdf (accessed date: 15.02.2024).

3. 3. Isaev A. P., Erlich V. V., Zalyapin V. I. Analysis of the main components of the integrative activity of the body of middle-distance runners // TiPFC. 2015. № 8. P. 27–29. (In Russ.). URL: https://cyberleninka.ru/article/n/analiz-glavnyh-komponent-integrativnoy-deyatelnosti-organizma-begunov-na-srednie-distantsii (дата обращения: 15.02.2024).

4. 4. Kendall M., Stewart A. Multivariate statistical analysis and time series. Vol. 3. Moscow, 1976. 736 p. (In Russ.).

5. 5. Koryagina Yu. V., Nopin S. V., Ter-Akopov G. N. Development of an information system for morpho-psycho-functional testing for sports orientation in rhythmic gymnastics // Man. Sport. Medicine. 2023. Vol. 23, № S1. P. 107–112. (In Russ.). DOI: 10.14529/hsm23s115

6. 6. Hasledov A. D. SPSS: Computer analysis of data in psychology and social sciences. St. Petersburg: Peter, 2005. 416 p. (In Russ.).

7. 7. Ogandzhanov A. L., Mullina O. Yu. Technical and morphofunctional indicators of highly qualified pole vaulters // Bulletin of the Moscow State Pedagogical University “Natural Sciences”. 2021. № 2 (42). P. 29–37. (In Russ.). DOI: 10.25688/2076-9091.2021.42.2.3

8. 8. Wilkes S. Mathematical statistics. Moscow: Science, 1967. 632 p. (In Russ.).

9. 9. Factor, discriminant and cluster analysis / ed. by I. S. Enyukov. Moscow: FiS, 1989. 215 p. (In Russ.).

10. 10. Sherstyuk S. A., Andreev V. I., Kapilevich L. V. Innovative approach in the system of organizing medical and biological support in the sport of higher achievements // Issues of functional training in the sport of higher achievements. Materials VII Vseros. scientific-practical. conf. Omsk, 2020. S. 63–68. (In Russ.). URL: https://elibrary.ru/download/elibrary_46302279_66034066.pdf (accessed date: 15.02.2024).

11. 11. Shumailov V. A., Makarova N. V. Relationship of anthropometric parameters and the results of competitive activities of qualified pole vaulters // Scientific notes of the University named after P. F. Lesgaft. 2020. № 5 (183). S. 479–482. (In Russ.). URL: https://cyberleninka.ru/article/n/vzaimosvyaz-antropometricheskih-parametrov-i-rezultatov-sorevnovatelnoy-deyatelnosti-kvalifitsirovannyh-prygunov-s-shestom (accessed date: 15.02.2024).

12. 12. Cassirame J. Mechanical performance determinants in women’s vs men’s polevault / J. Cassirame, H. Sanchez, S. Homo et al. // Comput methods biomech biomed engin. 2017. V. 20. P. 37–38. URL: https://pubmed.ncbi.nlm.nih.gov/29088637/ (accessed date:15.02.2024).

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