This master thesis presents a new planning framework for multi-contact interaction of humanoid robots. This frameworks includes a posture generator, which finds the joint configuration of the robot given the position and orientation of the end-effectors and the information about the links of the robot in contact with the environment. The posture generator is a gradient-based inverse kinematics that meets a series of typical constraints for humanoids, such as: stability, torque and joint limits, collisions with itself and with the environment, friction, and singularity avoidance. This thesis explains how each of these constraints are formulated and how they are integrated to the inverse kinematics problem. For some of them, a Quadratic Prog...
This master’s thesis presents a footstep planning for a humanoid robot with perception and pro cessi...
Abstract—In this paper, we present efficient solutions for planning motions of dual-arm manipulation...
Incremental progress in humanoid robot locomotion over the years has achieved important capabilities...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Incremental progress in humanoid robot locomotion over the years has achieved essential capabilities...
We propose a unified planning approach for autonomous humanoid robots that perform dexterous locomot...
Nous proposons une approche de planification unifiée pour robots humanoïdes réalisant des tâches de ...
This thesis presents a new method for planning and controlling dynamic multi-contact motions for hu...
The key for robust and reliable usage of humanoid robots in various and unstructured environments re...
International audienceThe essence of humanoid robots is their ability to reproduce human skills in l...
Abstract This paper addresses a multi-level exploitation of degree of freedom (DOF), for humanoid mo...
The goal of this thesis is to develop motion planning algorithms for human-like figures that take in...
This thesis is related to motion control and planning algorithms for humanoid robots. For such highl...
This thesis presents a predictive control approach to generate trajectories for humanoid robots. To ...
This master’s thesis presents a footstep planning for a humanoid robot with perception and pro cessi...
Abstract—In this paper, we present efficient solutions for planning motions of dual-arm manipulation...
Incremental progress in humanoid robot locomotion over the years has achieved important capabilities...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Incremental progress in humanoid robot locomotion over the years has achieved essential capabilities...
We propose a unified planning approach for autonomous humanoid robots that perform dexterous locomot...
Nous proposons une approche de planification unifiée pour robots humanoïdes réalisant des tâches de ...
This thesis presents a new method for planning and controlling dynamic multi-contact motions for hu...
The key for robust and reliable usage of humanoid robots in various and unstructured environments re...
International audienceThe essence of humanoid robots is their ability to reproduce human skills in l...
Abstract This paper addresses a multi-level exploitation of degree of freedom (DOF), for humanoid mo...
The goal of this thesis is to develop motion planning algorithms for human-like figures that take in...
This thesis is related to motion control and planning algorithms for humanoid robots. For such highl...
This thesis presents a predictive control approach to generate trajectories for humanoid robots. To ...
This master’s thesis presents a footstep planning for a humanoid robot with perception and pro cessi...
Abstract—In this paper, we present efficient solutions for planning motions of dual-arm manipulation...
Incremental progress in humanoid robot locomotion over the years has achieved important capabilities...