Roller-Skating of Mammalian Quadrupedal Robot With Passive Wheels Inspired by Human
Jiawei Chen, Kun Xu, Xilun Ding
- Year
- 2020
- Citations
- 21
Abstract
Human can achieve roller-skating utilizing passive wheels to improve movement speed. Inspired by human roller-skating, a new dynamic roller-skating gait of a typical mammalian quadrupedal robot with passive wheels is proposed to promote mobile efficiency. According to the motion characteristics of human dynamic roller-skating, a simple structure of passive wheels installed on feet is designed for the mammalian quadrupedal robot to achieve this dynamic roller-skating without adding any active joints. Imitating human roller-skating, this dynamic roller-skating gait based on the bilateral symmetry can achieve the linear and turning motion. The Poincare map and the skating inverted pendulum model derived from human roller-skating are used to simplify the controller of the quadrupedal robot without considering real dynamical characteristics. The proposed roller-skating gait is verified in simulations and experiments. The results prove that the roller-skating gait has higher speed and efficiency than the conventional trotting gait.
Keywords
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