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引用次数: 1
摘要
本文主要研究完整类移动机器人的“定位与控制”问题。利用轮式编码器和运动学关系,讨论了一种计算量小、速度快的三轮全向移动机器人定位与导航技术。给出了一种优雅而实用的方法,使机器人在定义的工作空间中从A点导航到B点,使机器人能够自主地到达用户定义的目标位置和方向。“Go to Pose”算法的实现是针对单路点和多路点导航完成的。实验结果表明,加入PID控制器后,该算法具有较好的鲁棒性。
Self-Localization and Waypoints following of Holonomic Three Wheeled Omni-Directional Mobile Robot
This paper primarily focuses on the ‘Localization and Control’ problem with the holonomic class of mobile robots. The paper discusses a computationally less intensive with high rate localization and navigation techniques for a three wheeled omni-directional mobile robot, using wheel encoders and kinematic relations. Insight to an elegant and pragmatic approach to navigate the robot from point A to point B in the defined workspace, enabling the robot to autonomously reach a target position and orientation defined by the user, is given. Implementation of the ‘Go to Pose’ algorithm is done for both single-waypoint and multi-waypoint navigation. The experimental results obtained reinforce the robustness of the algorithm that incorporates PID controller.
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