Home /Research /Two-legged walking robot prescribed motion on a rough cylinder
LOCOMOTION

Two-legged walking robot prescribed motion on a rough cylinder

Yury Filippovich Golubev, Elena Vadimovna Melkumova

Year
2018
Citations
14

Abstract

The motion of a walking robot with n legs, that ensure the desired motion of the robot body, is described using general dynamics theoretical framework. When each of the robot legs contacts the surface in a single foothold, the momentum and angular momentum theorems yield a system of six differential equations that form a complete description of the robot motion. In the case of two-leg robot (n = 2) the problem of the existence of the solution can be reduced to a system of algebraic inequalities. Using numerical analysis, the classification of footholds positions for different values of the friction coefficient is obtained.

Keywords

Motion (physics)RobotCylinderMobile robotRobot kinematicsDynamics (music)MathematicsComputer scienceControl theory (sociology)Artificial intelligence

Related papers

Browse all LOCOMOTION papers