Title :
Robustness analysis of nonlinear biped control laws via singular perturbation theory
Author :
Hmam, Hatern M. ; Lawrence, Dale A.
Author_Institution :
Dept. of Aerosp. Eng. Sci., Colorado Univ., Boulder, CO, USA
Abstract :
The gait and stability analysis of a complex biped model using nonlinear techniques is presented. The overall dynamics of the system is treated analytically using singular perturbation theory and phase plane techniques. The unperturbed dynamical system corresponds to a reduced model of the biped vehicle where only a few components play a major role in determining the gross behavior of the biped dynamics. Since the dynamics of the reduced model is relatively easy to understand analytically, the approach followed is to design control laws for the reduced biped via nonlinear limit cycles and to treat more complicated system models as perturbations to this reduced model. The reduced control law is shown to be robust to small perturbation. However, simulations indicate that the robustness to dynamical perturbation can be quite large
Keywords :
control system analysis; limit cycles; mobile robots; nonlinear control systems; position control; stability; complex biped model; gait analysis; nonlinear biped control laws; nonlinear limit cycles; phase plane techniques; robustness analysis; singular perturbation theory; stability analysis; unperturbed dynamical system; Aerodynamics; Control systems; Legged locomotion; Limit-cycles; Motion control; Nonlinear control systems; Nonlinear dynamical systems; Robust control; Robustness; Stability analysis; Torque control; Vehicle dynamics; Vehicles;
Conference_Titel :
Decision and Control, 1992., Proceedings of the 31st IEEE Conference on
Conference_Location :
Tucson, AZ
Print_ISBN :
0-7803-0872-7
DOI :
10.1109/CDC.1992.371335
