轮式移动机器人自适应速度场控制

Proceedings of the Fifth International Workshop on Robot Motion and Control, 2005. RoMoCo '05. Pub Date : 2005-06-23 DOI:10.1109/ROMOCO.2005.201415

W. Dixon, W. E. Galluzo, G. Hu, C. Crane

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引用次数: 19

摘要

轮式移动机器人(WMR’s)的位置控制问题由于其具有挑战性的理论性质(即非完整约束下的欠驱动非线性系统)和其实际重要性，一直是一个被大量研究的领域。本文提出了一个速度场跟踪控制问题，而不是构造一个要求移动机器人跟踪先验已知期望轨迹的控制问题。具体地说，建立了受限WMR轨迹的速度场，并建立了一个可微控制器来证明速度场的全局渐近跟踪。为了提高系统的鲁棒性，将开发的可微运动控制器嵌入到自适应控制器中，尽管与动态模型相关的参数不确定性仍能促进全局渐近跟踪。

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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Adaptive velocity field control of a wheeled mobile robot

The position control problem of wheeled mobile robots (WMR's) has been a heavily researched area due to both the challenging theoretical nature of the problem (i.e., an underactuated nonlinear system under nonholonomic constraints) and its practical importance. Rather than construct a control problem where the mobile robot is required to track an a priori known desired trajectory, this paper formulates a velocity field tracking control problem. Specifically, a velocity field is developed for the constrained WMR trajectory, and a differentiable controller is formulated to prove global asymptotic velocity field tracking. Motivated by the desire to improve the robustness of the system, the developed differentiable kinematic controller is embedded inside of an adaptive controller that fosters global asymptotic tracking despite parametric uncertainty associated with the dynamic model.

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Proceedings of the Fifth International Workshop on Robot Motion and Control, 2005. RoMoCo '05.

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