Attitude oscillation suppression control of a XK-I spherical robot

Rui Lin, Qiguan Wang, Xin Yang, Jianwen Huo
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Abstract

Purpose

In complex environments, a spherical robot has great application value. When the pendulum spherical robot is stopped or disturbed, there will be a periodic oscillation. This situation will seriously affect the stability of the spherical robot. Therefore, this paper aims to propose a control method based on backstepping and disturbance observers for oscillation suppression.

Design/methodology/approach

This paper analyzes the mechanism of oscillation. The oscillation model of the spherical robot is constructed and the relationship between the oscillation and the internal structure of the sphere is analyzed. Based on the oscillation model, the authors design the oscillation suppression control of the spherical robot using the backstepping method. At the same time, a disturbance observer is added to suppress the disturbance.

Findings

It is found that the control system based on backstepping and disturbance observer is simple and efficient for nonlinear models. Compared with the PID controller commonly used in engineering, this control method has a better control effect.

Practical implications

The proposed method can provide a reliable and effective stability scheme for spherical robots. The problem of instability in real motion is solved.

Originality/value

In this paper, the oscillation model of a spherical robot is innovatively constructed. Second, a new backstepping control method combined with a disturbance observer for the spherical robot is proposed to suppress the oscillation.

XK-I 型球形机器人的姿态振荡抑制控制
目的 在复杂环境中,球形机器人具有很大的应用价值。当摆式球形机器人停止或受到干扰时,会出现周期性振荡。这种情况将严重影响球形机器人的稳定性。因此,本文旨在提出一种基于反步法和扰动观测器的振荡抑制控制方法。构建了球形机器人的振荡模型,并分析了振荡与球体内部结构之间的关系。在振荡模型的基础上,作者采用反步进方法设计了球形机器人的振荡抑制控制。研究发现,基于反步法和扰动观测器的控制系统对于非线性模型来说简单高效。实际意义所提出的方法可以为球形机器人提供可靠有效的稳定方案。原创性/价值本文创新性地构建了球形机器人的振荡模型。本文创新性地构建了球形机器人的振荡模型,并提出了一种结合扰动观测器的球形机器人反步控制方法来抑制振荡。
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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