Reflex control of body posture in standing

A. Sarmadi, Maziar Ahmad Sharbafi, A. Seyfarth
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引用次数: 4

Abstract

Human body as a segmented inverted pendulum is an unstable system needing posture control for balancing. Using the inverted pendulum as a template representing human balance in quiet standing, neuromuscular models can be employed for understanding posture control. Feedback control is implemented in human neuromuscular systems by reflex signals. In this paper, we want to realize which type of reflex signals are the most advantageous ones in posture control. As common reflex signals, muscle length, velocity and force are examined. Simulations, stability and robustness analyses show that combination of force and velocity reflexes results in a stable system with the largest basin of attraction, the most robustness against perturbations and the best performance. In addition, a proposed model with two antagonistic muscle can explain human moderate oscillations at quiet standing, using the metabolic effort under optimal control argumentation.
站立时身体姿势的反射控制
人体作为一个分段倒立摆是一个不稳定系统,需要通过姿态控制来保持平衡。以倒立摆为模板,代表人在安静站立时的平衡,神经肌肉模型可以用来理解姿势控制。反馈控制是通过反射信号在人体神经肌肉系统中实现的。在本文中,我们想要了解哪种类型的反射信号在姿势控制中是最有利的。作为常见的反射信号,肌肉长度、速度和力量被检查。仿真、稳定性和鲁棒性分析表明,力反射和速度反射相结合得到的系统具有最大的吸引力、对扰动的鲁棒性和最佳性能。此外,一个具有两个拮抗肌肉的模型可以用最优控制下的代谢努力来解释人体在安静站立时的适度振荡。
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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