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Motricidade
versão impressa ISSN 1646-107X
Motri. vol.14 no.2-3 Ribeira de Pena out. 2018
ARTIGOS
A dynamometric central for 3d forces and moments assessment in swimming starts
Daria Rudnik1,2, Karla de Jesus2,3,7, Luís Mourão2,3,4, Hélio Roesler2,3,5, Kelly de Jesus2,3,7, Leandro Machado2,3, Susana Soares2,3, Ricardo J. Fernandes2,3, Mário Vaz3,6, Marek Rejman1, João Paulo Vilas-Boas2,3
1 School of Physical Education, University of Wroclaw, Poland;
2 CIFI2D, Faculty of Sport, University of Porto, Portugal;
3 LABIOMEP, University of Porto, Portugal;
4 Polytechnic Institute of Porto, Portugal;
5 ESEF, University of the State of Santa Catarina, UDESC, Brazil;
6 LOME, INEGI, Faculty of Engineering, University of Porto, Portugal;
7 FEFF, Federal University of Amazonas, UFAM, Brazil
Introduction
Over the years, swimming start technique has evolved in close relationship with the modifications in the swimming rules and technologies developed to assist the swimmers action and to evaluate its proficiency, inspiring new research directions (Vantorre et al., 2010). As sprint swimming events classifications can be decided by very small margins (e.g. 0.01 s), sport engineers and biomechanists aimed optimizing instrumented starting blocks for more/multi-conditions analysis purposes (de Jesus et al., 2014). The noticeable technological advances provided by these devices supply swimmers and coaches with new opportunities for assessment and training of technical elements of swimming race as starts and turns. The purpose of this study was to reveal the value of using an instrumented starting block (3D dynamometric central), developed at the University of Porto, as a tool to diverse analysis purpose. Moreover, this review aims describing running research trends in assessment and training in swimming starts and turns optimisation.
Methods
To upgrade knowledge in swimming starts and turns researches, this study reviews literature from swimming specific publication, proceedings of scientific conferences and academic thesis (PhD).
Results
The design and construction of a 3D force plate prototype, which might be use as a modular sensor of an instrumented starting block, was described by Mourao et al. (2016). The linear static and model simulations shown that the dynamometric central might be used as a tool for starts and turns detailed analysis (Vilas-Boas et al. 2014). Evaluation of value in use was performed during a large number of data acquisitions taking place in Porto University under the patronage of LABIOMEP, the University of Porto Biomechanics Laboratory. These experiments provided results proving that swimming start and turns performance evaluations are an invaluable tool for technical optimisation for all level swimmers. Different studies were conducted, including biomechanical analysis of starts and turns, considering different positioning of upper and lower limbs on starting block and its configuration on changes in performance, comparison to results from land tests, as well as analysis of dynamical asymmetry. Moreover, the high sensitivity of the device allows specific physical analysis of swimmers actions.
Conclusions
The Portuguese 3D dynamometric central could be considered as the most modern and versatile instrumented starting block complying with the FINA facilities and starting rules, allowing independent measurement of external forces and moments performed by each limb, independently, at ventral and dorsal starting and turning techniques.
REFERENCES
de Jesus et al. (2014). The backstroke swimming start: state of the art. Journal of Human Kinetics, 42(1), 27-40. [ Links ]
Mourão et al. (2016). Design and construction of a 3D force plate prototype for developing an instrumented swimming start block. Journal of Biomedical Engineering and Informatics, 2(2), 99. [ Links ]
Vantorre et al. (2010). Kinematical profiling of the front crawl start. International Journal of Sports Medicine, 31(01), 16-21. [ Links ]
Vilas-Boas et al. (2014) A novel dynamometric central for 3D forces and moments assessment in swimming starting. XII Symposium on Biomechanics and Medicine in Swimming. Australian Institute of Sport, 135-136. [ Links ]
Funding
Projeto Metaheurísticas da computação natural aplicadas à biomecânica das partidas e viragens em natação (Programa CAPES/FCT Edital 039/2014).