Home /Research /Robust control of a brachiating robot
LOCOMOTION

Robust control of a brachiating robot

Kim‐Doang Nguyen, Dikai Liu

Year
2017
Citations
10

Abstract

This paper investigates the robust control of an underactuated brachiating robot. Inspired by the pendulumlike movements in gibbons' arboreal locomotion, the controllers are designed to synchronize the brachiator with a virtual oscillator. Two schemes are proposed: a model-dependent feedback linearization scheme and a sliding-mode scheme that is independent of the system model. The simulation results illustrate that the proposed schemes are robust to the arbitrary initial configurations of the brachiator and the limitation in the motor torque at the elbow joint. Furthermore, both controllers enable the underactuated robot to brachiate along a structural member with an upward slope.

Keywords

UnderactuationControl theory (sociology)RobotFeedback linearizationComputer scienceRobust controlScheme (mathematics)LinearizationControl engineeringTorque

Related papers

Browse all LOCOMOTION papers