Exploring The Role of Thigh Muscle Coordination with Biarticular Muscles for Stable Running

Hidaka Asai, Tomoyuki Noda, Jun Morimoto
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Abstract

Abstract Legged animals including humans appear to efficiently exploit their elastic muscle coordination to achieve stable locomotion. Previous studies have shown that the elasticity of the leg realizes stable locomotion through the simple models comprising a mass and spring, and explained the stability of fundamental dynamics in human locomotion successfully. However, these models are excessively simple for interpreting the role of muscle coordination and implement on real systems. Thus, this study developed an analytical legged model to determine the role of muscle coordination in stabilizing biped running. In particular, we investigated the manner in which the thigh biarticular elastic mechanical elements aid in the stabilization of the torso pitch angle. We propose the torso-thigh muscle coordination (T-Tmc) model. The T-Tmc model was composed of the torso and three-pair of six-muscle structure in the thigh. We empirically showed that the T-Tmc model has the self-stability and generate a stable running without online input design. Further, the stable parameter region of the proposed model was investigated through numerical simulations and we found that the stable regions appear by setting the parameters appropriately. The T-Tmc model suggests how each muscle is coordinated in human locomotion.
探讨大腿肌肉与双关节肌肉协调在稳定跑步中的作用
包括人类在内的有腿动物似乎有效地利用他们的弹性肌肉协调来实现稳定的运动。以往的研究表明,腿的弹性通过一个质量和弹簧组成的简单模型来实现稳定的运动,成功地解释了人体运动基本动力学的稳定性。然而,这些模型对于解释肌肉协调的作用和在实际系统中实现过于简单。因此,本研究开发了一个分析腿模型,以确定肌肉协调在稳定两足动物跑步中的作用。特别是,我们研究了大腿双关节弹性机械元件在稳定躯干俯仰角方面的作用。我们提出了躯干-大腿肌肉协调(T-Tmc)模型。T-Tmc模型由躯干和大腿的三对六块肌肉结构组成。实证结果表明,T-Tmc模型具有自稳定性,无需在线输入设计即可产生稳定运行。通过数值模拟研究了模型的稳定参数区域,发现适当设置参数会出现稳定区域。T-Tmc模型显示了每块肌肉在人体运动中是如何协调的。
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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