How can xsens kinematic suit add to our understanding of a slalom turn

IF 0.9 4区医学 Q4 REHABILITATION

Kinesiology Pub Date : 2020-11-02 DOI:10.26582/k.52.2.4

Vjekoslav Cigrovski, Tomislav Rupčić, Ivan Bon, Mateja Očić, Tomislav Krističević

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引用次数: 3

Abstract

Traditionally used methods for kinematic analysis of alpine skiing has limitations regarding data collecting and data processing. Also, analysis of measured parameters, interpretation, and implementation in practice are postponed. Therefore, aim of this paper was to determine differences in the performance of slalom turns between three conditions using a relatively new technology that allows fast data collecting and analysis. Twenty kinematic variables were analysed for each turn (both the left and right) and 26 turns were executed in each condition. All turns were performed by a national skiing demonstrator. Differences were determined by MANOVA (F=71.3; p=.00). Tukey’s post-hoc test showed that the turns performed on the ski simulator differed in every variable from the turns performed in other two condition, and the free skiing turns differed from the corridor turns in the following variables: hip joint angle of abduction of the right leg in the left turn, p=.00; distance of the projection of the centre of mass relative to the right foot in the left turn, p=.00; hip joint angle of flexion of the left leg in the left turn, p=.02; hip joint angle of abduction of the left leg in the left turn, p=.01; distance of the projection of the centre of mass relative to the left foot in the left turn, p=.00; knee angle of flexion of the left leg in the right turn, p=.04). The kinematic parameters obtained using the XSENS suit during slalom turns performed on the ski simulator and ski slope suggested significant differences in the position of the lower extremities, which might be important for situational efficiency and technical performance. Our results can be used to improve the alpine skiing technique. They suggest more precise relations between space parameters, such as body position and the angles between different body segments during a slalom turn. Methodology of research and technology used could contribute to the development of new scientific approaches in biomechanical research of top-level sports.

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xsens运动服如何增加我们对回转转弯的理解

传统上用于高山滑雪运动学分析的方法在数据收集和数据处理方面存在局限性。此外，测量参数的分析、解释和在实践中的实施也被推迟。因此，本文的目的是使用一种相对较新的技术来确定三种条件下回转成绩的差异，该技术可以快速收集和分析数据。分析了每个转弯（包括左转弯和右转弯）的20个运动学变量，并在每个条件下执行了26个转弯。所有的转弯都由一名国家滑雪示范员表演。通过MANOVA确定差异（F=71.3；p=.00）。Tukey的事后测试表明，在滑雪模拟器上进行的转弯在每个变量上都与在其他两种条件下进行的转弯不同，自由滑雪转弯与走廊转弯在以下变量上不同：左转弯时右腿髋关节外展角，p=.00；重心在左转时相对于右脚的投影距离，p=.00；左转时左瘫的髋关节屈曲角度，p=.02；左转弯时左腿外展的髋关节角度，p=.01；重心在左转时相对于左脚的投影距离，p=.00；在滑雪模拟器和滑雪坡上进行回转转弯时，使用XSENS套装获得的运动学参数表明，下肢位置存在显著差异，这可能对态势效率和技术性能很重要。我们的研究结果可用于改进高山滑雪技术。他们提出了空间参数之间更精确的关系，例如身体位置和回转转弯过程中不同身体段之间的角度。所使用的研究方法和技术有助于开发顶级运动生物力学研究的新科学方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Kinesiology REHABILITATION-SPORT SCIENCES

CiteScore

1.90

自引率

8.30%

发文量

审稿时长

>12 weeks

期刊介绍： Kinesiology – International Journal of Fundamental and Applied Kinesiology (print ISSN 1331- 1441, online ISSN 1848-638X) publishes twice a year scientific papers and other written material from kinesiology (a scientific discipline which investigates art and science of human movement; in the meaning and scope close to the idiom “sport sciences”) and other adjacent human sciences focused on sport and exercise, primarily from anthropology (biological and cultural alike), medicine, sociology, psychology, natural sciences and mathematics applied to sport in its broadest sense, history, and others. Contributions of high scientific interest, including also results of theoretical analyses and their practical application in physical education, sport, physical recreation and kinesitherapy, are accepted for publication. The following sections define the scope of the journal: Sport and sports activities, Physical education, Recreation/leisure, Kinesiological anthropology, Training methods, Biology of sport and exercise, Sports medicine and physiology of sport, Biomechanics, History of sport and Book reviews with news.