{"title":"The structure and influence of different flying high front kick techniques on the achieved height on the example of taekwon-do athletes","authors":"J. Wąsik","doi":"10.12659/AOB.882627","DOIUrl":null,"url":null,"abstract":"Background The aim of this paper is to establish biomechanical optimization of the high-flying front kick (in taekwon-do terminology referred to as twimyo nopi ap chagi), which would result in developing a more effective method of executing this particular kick. Material/Methods: The study analysed movements of 14 ITF taekwon-do athletes (age: 16.5±0.7 years; weight 64.1±7.0 kg; height 176.5±4.6 cm). A system of complex analysis of movement called Smart-D made by the Italian company BTS Spa was used for the tests. For the purpose of the experimental part of the study the study participants were asked to adopt the same initial stance (in taekwon-do terminology called Niunja So Palmok Degi Maki) and perform the high-flying front kick in two different techniques – using the traditional technique (scissors) and the natural technique (non-scissors). Results: In case of the natural technique used for executing this kick the COG usually starts from the height of 0.9 m. After 0.5 sec. the COG is lowered by 0.1 m so that the athlete can take off having developed the required velocity. At the maximum height of the flight the COG reaches 1.54 m (having risen by 0.64 m), and this is the moment when the knee extension for kick completion occurs. In the traditional technique the COG is located at 0.9 m at the start and then lowers by 0.1 m. When leaping up at take-off the velocity increases immediately and at the flight maximum the COG reaches 1.46 m. This is also the height when the landing stage starts. The local maximum is marked at the height of 1.40 m, which corresponds to the moment of the knee extension needed to complete the kick. Conclusions: The observation shows that there are four main elements which influence the height achieved by an athlete in his jump and these include the height of the centre of gravity at take-off, the flight height of the COG as well as the height determined by the length of the lower limb and the angle formed between the plane perpendicular to the board and the limb. In the natural technique the athletes managed to raise their COG by an average of 74 mm higher than in the traditional technique (p<0.01).","PeriodicalId":55475,"journal":{"name":"Archives of Budo","volume":null,"pages":null},"PeriodicalIF":1.4000,"publicationDate":"2012-01-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"19","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Archives of Budo","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.12659/AOB.882627","RegionNum":3,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"SPORT SCIENCES","Score":null,"Total":0}
引用次数: 19
Abstract
Background The aim of this paper is to establish biomechanical optimization of the high-flying front kick (in taekwon-do terminology referred to as twimyo nopi ap chagi), which would result in developing a more effective method of executing this particular kick. Material/Methods: The study analysed movements of 14 ITF taekwon-do athletes (age: 16.5±0.7 years; weight 64.1±7.0 kg; height 176.5±4.6 cm). A system of complex analysis of movement called Smart-D made by the Italian company BTS Spa was used for the tests. For the purpose of the experimental part of the study the study participants were asked to adopt the same initial stance (in taekwon-do terminology called Niunja So Palmok Degi Maki) and perform the high-flying front kick in two different techniques – using the traditional technique (scissors) and the natural technique (non-scissors). Results: In case of the natural technique used for executing this kick the COG usually starts from the height of 0.9 m. After 0.5 sec. the COG is lowered by 0.1 m so that the athlete can take off having developed the required velocity. At the maximum height of the flight the COG reaches 1.54 m (having risen by 0.64 m), and this is the moment when the knee extension for kick completion occurs. In the traditional technique the COG is located at 0.9 m at the start and then lowers by 0.1 m. When leaping up at take-off the velocity increases immediately and at the flight maximum the COG reaches 1.46 m. This is also the height when the landing stage starts. The local maximum is marked at the height of 1.40 m, which corresponds to the moment of the knee extension needed to complete the kick. Conclusions: The observation shows that there are four main elements which influence the height achieved by an athlete in his jump and these include the height of the centre of gravity at take-off, the flight height of the COG as well as the height determined by the length of the lower limb and the angle formed between the plane perpendicular to the board and the limb. In the natural technique the athletes managed to raise their COG by an average of 74 mm higher than in the traditional technique (p<0.01).
本文的目的是建立高飞前踢(在跆拳道术语中称为twimyo nopi ap chagi)的生物力学优化,这将导致开发一种更有效的执行这种特殊踢的方法。材料/方法:对14名ITF跆拳道运动员(年龄:16.5±0.7岁;重量64.1±7.0 kg;高度(176.5±4.6 cm)。此次测试使用了意大利BTS Spa公司生产的复杂运动分析系统Smart-D。为了研究的实验部分,研究参与者被要求采用相同的初始姿势(在跆拳道术语中称为Niunja So Palmok Degi Maki),并以两种不同的技术执行高空前踢-使用传统技术(剪刀)和自然技术(非剪刀)。结果:在采用自然踢腿技术的情况下,抓手通常从0.9米的高度开始。0.5秒后,COG降低0.1米,以便运动员能够达到所需的速度起飞。在最大飞行高度时,侧腹达到1.54米(上升了0.64米),这是完成踢腿时膝盖伸展的时刻。在传统技术中,COG位于开始时0.9米,然后降低0.1米。在起飞时跳跃时,速度立即增加,在飞行时最大COG达到1.46 m。这也是着陆阶段开始时的高度。局部最大值标记在1.40米的高度,这对应于完成踢腿所需的膝盖伸展时刻。结论:观察结果表明,影响运动员起跳高度的因素主要有四个,即起跳时的重心高度、起跳手的飞行高度、下肢的长度以及与跳板垂直的平面与下肢之间形成的夹角所决定的高度。采用自然技术的运动员比采用传统技术的运动员平均提高了74 mm (p<0.01)。
期刊介绍:
Archives of Budo is an international peer reviewed journal publishing articles on various aspects of the sports sciences covering education and research in martial arts and combat sports, and related areas like biomechanics, kinesiology, medicine, psychology, sociology, technologies of sports equipment, research in training, selection, performance, survival, and other interdisciplinary perspectives.
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