— We present an approach to navigating a biped robot safely and efficiently through a complicated environment of previously unknown obstacles and terrain using only onboard sens...
Joel E. Chestnutt, Yutaka Takaoka, Keisuke Suga, K...
We present a novel method to control a biped humanoid robot to walk on unknown inclined terrains, using an online learning algorithm to estimate in real-time the local terrain fro...
— We present a controller for a quadrupedal robot statically walking on known rough terrain. The controller has both deliberative and reactive components for task specific contr...
John R. Rebula, Peter Neuhaus, Brian V. Bonnlander...
— We present a method for computing controllers for stable planar-biped walking gaits that follow a particular style. The desired style is specified with a kinematic target traj...
— A biped walking pattern generator which allows an additional ZMP control (auxiliary ZMP) is presented. An auxiliary ZMP is realized by an inverse system added to a pattern gene...