Dynamic modeling of a gymnast on a high bar-computer simulation and construction of a gymnast robot

EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications Pub Date : 1990-07-03 DOI:10.1109/IROS.1990.262519

S. Takashima

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引用次数: 25

Abstract

Dynamic modelings of a gymnast on a high bar are presented. Three types of models are developed in the paper. The first one is a single-link pendulum robot with an additional mass able to slide up and down on a straight path along the link. It can perform a giant swing. This model is developed to make a study about the mechanism of a giant swing and increasing swing amplitude. The second is the three-link model consisting of arms, trunk and legs. It can perform a skip, a giant swing and other stunts which require bent knees. The third is four-link model with bent knees. In this model the coordinates of the position of the body in sagittal plane are added so that it can perform aerial stunts and landing. For the three models computer simulations show that the control strategy to realize the high bar stunts depends mainly on the control of the position of the center of the gravity of the whole body. Except for the four-link model, physical models are constructed. The three-link gymnast robot can perform sequential stunts by the same control strategy to that of the computer simulations.<>

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体操运动员在高杆上的动态建模——体操机器人的计算机仿真与构造

建立了体操运动员在高杆上的动态模型。本文建立了三种类型的模型。第一个是一个单链摆机器人，它有一个额外的质量，可以沿着连杆在直线上上下滑动。它可以做一个巨大的秋千。该模型的建立是为了研究巨摆的产生机理和摆幅的增大。第二种是由手臂、躯干和腿组成的三连杆模型。它可以表演跳跃、大秋千和其他需要弯曲膝盖的特技。第三种是膝关节弯曲的四连杆模型。在该模型中，增加了人体在矢状面的位置坐标，使其能够进行空中特技和着陆。对三种模型的计算机仿真表明，实现高杆动作的控制策略主要依赖于对全身重心位置的控制。除了四连杆模型外，还构建了物理模型。三连杆体操机器人可以通过与计算机模拟相同的控制策略完成连续的特技动作。

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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EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications

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