DYNAMIC MODELLING FOR THE SECOND FLIGHT PHASE OF THE YURCHENKO LAYOUT VAULT BASED ON MSC. ADAMS

IF 0.6 Q4 SPORT SCIENCES Science of Gymnastics Journal Pub Date : 2022-11-07 DOI:10.52165/sgj.12.2.163-171

Kum-Hyok Hwang, Yong-Song Kim, Dong-Chol Choi, Mun-Il Choi

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Abstract

Gymnasts attempt to increase the angles of rotation about transversal and longitudinal axes during the post-flight of vaulting, and these angles are related to different mechanical properties. The present study uses a 3D angle-driven computer simulation model of a gymnast who performs Yurchenko layout vault using ADAMS software. Simulation initial conditions are horizontal and vertical velocities of gymnast’s pelvis center and angular velocities about the transversal and longitudinal axes which can be easily measured. The initial linear and angular velocity conditions of the simulation model are each changed in certain increments from measurement data collected from an elite woman gymnast. Increasing initial horizontal velocity results in an increased horizontal flight distance, but has no connection with the duration of flight and angle of twists. The overall angle of twists is concerned with initial vertical velocity and angular velocities about the transversal and longitudinal axes. Also, increasing initial vertical velocity and angular velocity about transverse axis leads to increase in touchdown angle between ground’s horizontal axis and gymnast’s longitudinal axis.

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基于msc的尤尔琴科布局拱顶第二次飞行阶段动力学建模。亚当斯

在跳马后腾空过程中，运动员试图增加横轴和纵轴的旋转角度，而这些角度与不同的力学性能有关。本研究使用ADAMS软件对体操运动员尤尔琴科跳马进行三维角度驱动的计算机仿真模型。模拟初始条件是体操运动员骨盆中心的水平和垂直速度，以及易于测量的横轴和纵轴角速度。仿真模型的初始线速度条件和角速度条件分别以一定的增量变化，这些变化来自于一名优秀女子体操运动员的测量数据。初始水平速度的增加导致水平飞行距离的增加，但与飞行时间和扭转角度无关。总的扭转角与横轴和纵轴的初始垂直速度和角速度有关。此外，增加横轴上的初始垂直速度和角速度，也会导致地面水平轴与运动员纵轴之间的着地角增加。

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

Science of Gymnastics Journal SPORT SCIENCES-

CiteScore

1.30

自引率

33.30%

发文量