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Quasi-static motion of a new serial snake-like robot on a water surface: a geometrical approach

Xiao Xie, Johann Herault, E. Clement, Vincent Lebastard, Frédéric Boyer

Year
2021
Citations
2

Abstract

This paper reports methods to compute the equilibrium stances of a new snake-like robot designed to stabilize its head on a free water surface. To adjust rapidly the stability of the robot, this bio-inspired robot can rotate independently each body-shell, and modify the level of immersion of each module. To predict the stable stance accessible by this additional degree of freedom, a model is developed to compute the equilibrium configurations of the robot from a given parametrization of the body shape. Then, an algorithm is introduced to compute a sequence of controlled body deformations, such that the head configuration relatively to the water surface remains unchanged. Finally, we explore in simulation stances and quasi-static gaits, and investigate to what extent the buoyancy and the body deformations can be used to stabilize the head of the snake-like robot.

Keywords

RobotParametrization (atmospheric modeling)Computer scienceRobot kinematicsHead (geology)BuoyancySurface (topology)Rigid bodyStability (learning theory)Control theory (sociology)

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