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Increasing Efficiency of Semifond Running by Improving Technical Aspects

Andreea-Georgiana Dobre (), Claudiu Mereuță (), Dragoș Bondoc-Ionescu () and Florin-Eduard Grigore ()
Additional contact information
Andreea-Georgiana Dobre: Transilvania†University, Brasov, Faculty of Physical Education and Mountain Sports
Claudiu Mereuță: Dunărea de Jos†University, Galati, Faculty of Physical Education and Sport
Dragoș Bondoc-Ionescu: Transilvania†University, Brasov, Faculty of Physical Education and Mountain Sports
Florin-Eduard Grigore: Dunărea de Jos University, Galati, Faculty of Physical Education and Sport

Chapter 16 in 4th International Scientific Conference SEC-IASR 2019, 2020, vol. 12, pp 140-150 from Editura Lumen

Abstract: Our analysis attempts to highlight some technical aspects that we believe can be exploited to increase the effectiveness of re-systematic injuries by detecting the non-synchronizations that occur between the body segments during effort on a fatigue background. We refer here to the different power released by the lower limbs, which generates deviations of the impulse vectors and which ultimately result in a lesser capitalization of the mechanical work actually performed. The level at which the performance in the 1500 m running on the world scale could be greatly improved by discovering those small details that could still be corrected. High-frequency video analyzes can serve this purpose, but the biomechanics of body movements must be properly controlled to know what we are reporting. The novelty consists in the fact that through this research we want to identify the technical faults occurring in the run distance competitions, in order to subsequently develop an intervention program with the main purpose of improving the frequently encountered technical errors. For this, we will use monitoring and video analysis, then interpreting the results with a program called Kinovea. Kinovea is a video analysis software that allows you to capture and play at different speeds a video recording with the ability to analyze kinematic parameters.

Keywords: technical; resistance; fatigue; performance; video analysis (search for similar items in EconPapers)
JEL-codes: D8 D9 I2 O3 Z1 (search for similar items in EconPapers)
Date: 2020
ISBN: 978-1-910129-26-5
References: View complete reference list from CitEc
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Persistent link: https://EconPapers.repec.org/RePEc:lum:prchap:12-16

DOI: 10.18662/lumproc/sec-iasr2019/16

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