A leg-wheel robot-based approach to the solution of flipper-track robot kinematics

2011 IEEE International Conference on Control Applications (CCA) Pub Date : 2011-10-13 DOI:10.1109/CCA.2011.6044375
Alan Mutka, Z. Kovačić
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引用次数: 20

Abstract

This paper presents the method of solving kinematics of a flipper-track robot. A general kinematics framework based on the screw theory is introduced for the leg-wheel robots. Focusing on the contact point between a flipper and the ground surface, the flipper-track robot kinematics is presented with the equivalent hybrid leg-wheel robot kinematics. For a studied four flipper-track robot, several robot control modes and corresponding kinematics solutions are identified. The algorithm for robot posture and tracking control is presented respecting robot's mechanical constraints. The kinematics and robot posture control were tested by simulation on a virtual robot in the MATLAB-ODE simulation environment.
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基于腿轮机器人的鳍状履带机器人运动学求解方法
提出了一种求解鳍状履带机器人运动学的方法。介绍了基于螺旋理论的腿轮机器人的一般运动学框架。以脚蹼与地面接触点为研究对象,采用等效的腿轮混合机器人运动学模型建立了脚蹼-履带机器人运动学模型。针对所研究的四肢式履带机器人,确定了机器人的几种控制模式和相应的运动学解。考虑机器人的机械约束条件,提出了机器人姿态和跟踪控制算法。在MATLAB-ODE仿真环境下,对虚拟机器人的运动学和姿态控制进行了仿真测试。
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2011 IEEE International Conference on Control Applications (CCA)
2011 IEEE International Conference on Control Applications (CCA)
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