Stability analysis and time-varying walking control for an under-actuated planar biped robot - Archive ouverte HAL
Article Dans Une Revue Robotics and Autonomous Systems Année : 2011

Stability analysis and time-varying walking control for an under-actuated planar biped robot

Résumé

This paper presents two walking controllers for a planar biped robot with unactuated point feet. The control is based on the tracking of reference motions expressed as a function of time. First, the reference motions are adapted at each step in order to create a hybrid zero dynamic (HZD) system. Next, the stability of the walking gait under closed-loop control is evaluated with the linearization of the restricted Poincaré map of the HZD. When the controlled outputs are selected to be the actuated coordinates, most periodic walking gaits for this robot are unstable, that is, the eigenvalues of the linearized Poincaré map (ELPM) is larger than one. Therefore, two control strategies are explored to produce stable walking. The first strategy uses an event-based feedback controller to modify the ELPM and the second one is based on the choice of controlled outputs. The stability analysis show that, for the same robot and for the same reference trajectory, the stability of the walking (or ELPM) can be modified by some pertinent choices of controlled outputs. Moreover, by studying some walking characteristics of many stable cases, a necessary condition for stable walking is proposed. It is that the height of swing foot is nearly zero at the desired moment of impact. Based on this condition, the duration of the step is almost constant in presence of initial error, so a method for choosing controlled outputs for the second controller is given. By using this method, two stable domains for the controlled outputs selection are obtained.

Dates et versions

hal-00589688 , version 1 (30-04-2011)

Identifiants

Citer

Ting Wang, Christine Chevallereau. Stability analysis and time-varying walking control for an under-actuated planar biped robot. Robotics and Autonomous Systems, 2011, 59 (6), pp.444-456. ⟨10.1016/j.robot.2011.03.002⟩. ⟨hal-00589688⟩
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