LOCOMOTION
Stability analysis of snake robot locomotion based on Poincaré maps
Pål Liljebäck, Kristin Y. Pettersen, Øyvind Stavdahl, Jan Tommy Gravdahl
- Year
- 2009
- Citations
- 10
Abstract
This paper presents an analysis of snake locomotion that explains how non-uniform viscous ground friction conditions enable snake robots to locomote forward on a planar surface. The explanation is based on a simple mapping from link velocities normal to the direction of motion into propulsive forces in the direction of motion. From this analysis, a controller for a snake robot is proposed. A Poincare¿ map is employed to prove that all state variables of the snake robot, except for the position in the forward direction, trace out an exponentially stable periodic orbit.
Keywords
RobotRobot locomotionPosition (finance)Control theory (sociology)PlanarMotion (physics)Mobile robotComputer scienceStability (learning theory)Poincaré map
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