麦卡农轮式移动机器人滚筒上可变接触力的理论和实验研究

Can Tezel, Gokhan Bayar
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摘要

文献中介绍的滚轮、麦卡农轮和麦卡农轮式移动机器人的建模结构均采用单接触力假设。这种假设在仿真环境中可能会得到很好的结果,但它不足以反映实际情况。为了对其进行改进,本研究提出了一种新的麦柯纳姆轮模型。该模型考虑了滚筒接触力的变化,并研究了其对轮式移动机器人运动性能的影响。该模型使用了每个滚轮曲线形状上的所有点,因此也考虑到了滑动现象,这使得在实时操作中获得较小的位置估计误差成为可能。所引入的建模结构旨在反映模拟和实际应用中的现实情况。本研究开发了一个仿真环境。为了进行验证,设计并构建了一个实验装置,包括一个四轮移动机器人、其机械和电气软硬件基础设施以及一个地面实况系统。创建了基于机器人操作系统(ROS)的控制系统,并将其集成到实验系统中。在模拟和实验研究中,使用了不同类型的参考轨迹,包括直线、方形、Z 形和波浪(S)形,以测试模型的性能。此外,还使用涉及单接触力假设的模型进行了测试,以进行比较。本文详细介绍了所提出的可变接触力模型、开发的仿真环境、建立的实验装置、仿真和实验研究、其结果和比较。
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Theoretical and experimental investigation of variable contact forces on the rollers of a mecanum wheeled mobile robot
The modeling structures of rollers, mecanum wheels, and mecanum wheeled mobile robots presented in the literature use single contact force assumption. This assumption may give good results in a simulation environment; however, it is not strong enough to reflect reality. To make an improvement, a new aspect of mecanum wheel model is proposed in this study. The model takes the variable roller contact forces into account and investigates their effects on the performance of motion of a mecanum wheeled mobile robot. It uses all points on each roller’s curved shape so that the slippage phenomena is also taken into consideration which makes it possible to get less position estimation errors in real-time operations. The modeling structure introduced aims to reflect reality both in simulation and real applications. A simulation environment is developed for this study. To make verification, an experimental setup including a four-mecanum-wheeled mobile robot, its mechanical and electrical hardware and software infrastructures, and a ground-truth system is designed and constructed. A Robot Operating System (ROS) based control system is created and integrated into the experimental system. Different types of reference trajectories including straight-line, square-shaped, Z-shaped, and wave(S)-shaped are used to test the performance of the model proposed in both simulation and experimental studies. The tests are also conducted using the model that involves single contact force assumption to make comparisons. The details of the variable contact forces model proposed, simulation environment developed, experimental setup built, simulation and experimental studies, their results, and comparisons are given in this paper.
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