International audienceThis paper proposes a novel approach to online replan the walking trajectory of a biped humanoid robot to avoid unexpected interactions and impacts with dynamic obstacles that may compromise the balance of the humanoid robot. The proposed method adjusts the position of the contacts of a preplanned global trajectory according to the position of moving obstacles and the robot's dynamic properties. The methodology includes a graph-based footstep planner to generate a footstep sequence aware of possible changes in a dynamic environment, a Model Predictive Controller based on the Single-Rigid Body Dynamics to track the computed footsteps, and a final Whole-Body Control layer to compute proper joint torque commands. Prelimin...
The complexity of robot dynamics and contact model are only a few of the challenges that increase th...
IROS 2018A common approach to the generation of walking patterns for humanoid robots consists in ado...
Abstract — This paper proposes a method of a real-time gait planning for humanoid robots which can c...
Abstract — Humanoid robots have many potential applica-tions in man-made environments, including per...
This paper presents a novel online walking control that replans the gait pattern based on our propos...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
Abstract — We illustrate an original real-time replanning scheme experimentally for humanoid robot r...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
We present a computationally efficient technique aimed at planning bipedal walking trajectories for ...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Abstract — Despite the stable walking capabilities of modern biped humanoid robots, their ability to...
International audienceThis paper focuses on realization of tasks with locomotion on humanoid robots....
Kryczka P, Kormushev P, Tsagarakis NG, Caldwell DG. Online regeneration of bipedal walking gait patt...
Humanoid robots in any environment are likely to experience collisions with obstacles or imbalance w...
This paper proposes a novel orientation-aware model predictive control (MPC) for dynamic humanoid wa...
The complexity of robot dynamics and contact model are only a few of the challenges that increase th...
IROS 2018A common approach to the generation of walking patterns for humanoid robots consists in ado...
Abstract — This paper proposes a method of a real-time gait planning for humanoid robots which can c...
Abstract — Humanoid robots have many potential applica-tions in man-made environments, including per...
This paper presents a novel online walking control that replans the gait pattern based on our propos...
Abstract—In this paper, we formulate a novel hierarchical controller for walking of torque controlle...
Abstract — We illustrate an original real-time replanning scheme experimentally for humanoid robot r...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
We present a computationally efficient technique aimed at planning bipedal walking trajectories for ...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Abstract — Despite the stable walking capabilities of modern biped humanoid robots, their ability to...
International audienceThis paper focuses on realization of tasks with locomotion on humanoid robots....
Kryczka P, Kormushev P, Tsagarakis NG, Caldwell DG. Online regeneration of bipedal walking gait patt...
Humanoid robots in any environment are likely to experience collisions with obstacles or imbalance w...
This paper proposes a novel orientation-aware model predictive control (MPC) for dynamic humanoid wa...
The complexity of robot dynamics and contact model are only a few of the challenges that increase th...
IROS 2018A common approach to the generation of walking patterns for humanoid robots consists in ado...
Abstract — This paper proposes a method of a real-time gait planning for humanoid robots which can c...