运动学
移动机器人
控制理论(社会学)
非完整系统
运动控制
机器人运动学
计算机科学
控制器(灌溉)
运动规划
控制工程
机器人
李雅普诺夫函数
防滑(空气动力学)
工程类
模拟
人工智能
控制(管理)
物理
经典力学
机械工程
非线性系统
量子力学
农学
生物
作者
K. Tsuchiya,Takateru Urakubo,Katsuyoshi Tsujita
标识
DOI:10.1109/icsmc.1999.815635
摘要
We discuss the motion control of a two-wheeled mobile robot. In the design of a controller for the system, a kinematic model is usually used; the wheels do not skid at all and the mobile robot is regarded as a 3D 2-input nonholonomic system without drift. Many controllers based on the kinematic model have been proposed. However, in a real world, the wheels may skid on the ground or float away from the ground according to the rolling motion of the body. Therefore, we derive a dynamic model of a two-wheeled mobile robot which implies the translational motion with 3 degrees-of-freedom and the rotational motion with 3 degrees-of-freedom of the body and the rotational motion with one degree-of-freedom of each wheel, and then reduce the dynamic model to the kinematic model under certain assumptions. We design a controller based on the kinematic model by extending the Lyapunov control and analyze whether the designed controller works well in a real world by numerical simulations based on the dynamic model.
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