Paper ID: 2210.14767

Stabilization of Energy-Conserving Gaits for Point-Foot Planar Bipeds

Aakash Khandelwal, Nilay Kant, Ranjan Mukherjee

The problem of designing and stabilizing impact-free, energy-conserving gaits is considered for underactuated, point-foot planar bipeds. Virtual holonomic constraints are used to design energy-conserving gaits. A desired gait corresponds to a periodic hybrid orbit and is stabilized using the Impulse Controlled Poincar\'e Map approach. Numerical simulations for the case of a five-link biped demonstrate convergence to a desired gait from arbitrary initial conditions.

Submitted: Oct 26, 2022