Mechanism and Control of a Reconfigurable Footprint Omni-Directional Vehicle.
Takayuki TAKAHASHI, Takahiro Yokota, Zhidong Wang, Yoshikazu MORI, Eiji Nakano
- 发表年份
- 2001
- 引用次数
- 9
- 访问权限
- 开放获取
摘要
A newly designed four wheeled omni-directional vehicle which can vary its footprint is presented. Each wheel (made with a normal rubber tire) is attached with an offset to the tip of a link through a rotary joint and the another tip of the link is installed to the robot body with a rotary joint. The former joint is called “elbow” and the later one is “shoulder.”Individual joint has a DC servo motor and an electro-magnetic brake to control its angle. Thus, this mechanism consists of 12 motors and 8 brakes. First the concept of the proposed mechanism is described, and its kinematic behavior is analyzed. The principal part of the analysis is to derive a continuity condition of the elbow angle to design the trajectories for non-side-slip motions. The analysis is verified by some experimental results using a prototype one. Finally, the effectiveness of the proposed mechanism to gain the running stability based on controlling the zero moment point (ZMP) is also discussed.
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