Dynamic Stability Analysis of Robots on Spherical Base with Variable Load Mass

国际电力 Pub Date : 2022-01-26 DOI:10.1109/IWED54598.2022.9722600
Margarita V. Kartashova, N. Poliakov, Elizaveta D. Moiseenkova
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引用次数: 0

Abstract

Article explores the possibility of maintaining the equilibrium stability of the ball balancing robot (also known as a BallBot) with forced and free movement. This type of robots is initially unstable; therefore, it is necessary to create a control system that provides resistance to external influences. That requires to include into the analysis parameters of load's moment of inertia and rotational torque of the sphere base. A mathematical model of the sphere-based robot system was developed based on the augmented model of the inverse pendulum. A linear state controller with an internal model of free movement of the object has been obtained. Verification of the developed control system is performed using simulation in MATLAB / Simulink. The initial results of the study, including balancing in place and moving along the trajectory, are presented.
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变载荷质量球形基座机器人的动态稳定性分析
文章探讨了保持平衡稳定的球平衡机器人(也称为BallBot)与强制和自由运动的可能性。这种类型的机器人最初是不稳定的;因此,有必要创建一个能够抵抗外部影响的控制系统。这就要求将载荷的转动惯量和球基座的转动力矩等参数纳入分析。在反摆增广模型的基础上,建立了球面机器人系统的数学模型。得到了一个具有物体自由运动内部模型的线性状态控制器。在MATLAB / Simulink中对所开发的控制系统进行了仿真验证。介绍了研究的初步结果,包括原地平衡和沿轨迹移动。
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国际电力
国际电力
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