基于牵引与方向盘一体化的全向移动机器人运动控制研究

C. Ai, G. Ren, Xuan Sun, Honghua Zhao, Liyong Tan, Quancheng Dong
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引用次数: 1

摘要

为解决生产车间和仓库有限工作空间下的重型物料自动输送问题,设计了两套带方向盘驱动单元的重型全向移动机器人运动控制系统。利用“行走+转向”组的方向盘组合驱动单元搭建移动机器人底盘,构建了多电机协调运动的机电伺服系统和数学模型。控制器与方向盘组合驱动单元之间通过CAN总线进行通信。具体实现是通过控制器对控制信号进行捕获和分析,得到期望的运动方式,通过数学模型得到每组方向盘单元的运动,并通过对每组方向盘单元运动的综合来实现期望的运动。通过实验验证,两套方向盘单元驱动的移动机器人控制系统实现了机器人零转弯半径、360度全方位运动和运动过程中的旋转。它可以在狭小的空间里灵活工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on omnidirectional mobile robot motion control based on integration of traction and steering wheel
In order to solve the automatic transportation of heavy materials under the limited working space of production workshops and warehouses, two sets of heavy-duty omnidirectional mobile robot motion control systems with steering wheel drive units were designed. The steering wheel combination drive unit of the “walking + steering” set is used to build the mobile robot chassis, and the mechatronics servo system and mathematical model of multi-motor coordinated motion are constructed. The communication between the controller and the steering wheel combination drive unit is established through the CAN bus. The specific implementation is to capture and analyze the control signal through the controller to obtain the desired motion mode, to obtain the motion of each set of steering wheel unit through the mathematical model, and to realize the desired motion through the synthesis of each set of steering wheel unit motion. It has been verified by experiments that the two sets of steering wheel unit-driven mobile robot control system realizes the zero turning radius, 360-degree omnidirectional movement of the robot and rotation during the movement. It can be used for flexible work in tight spaces.
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