International audienceTraditional industrial applications involve robots with limited mobility. Consequently, interaction (e.g. manipulation) was treated separately from whole-body posture (e.g. balancing), assuming the robot firmly connected to the ground. Foreseen applications involve robots with augmented autonomy and physical mobility. Within this novel context, physical interaction influences stability and balance. To allow robots to surpass barriers between interaction and posture control, forthcoming robotic research needs to investigate the principles governing whole-body motion and coordination with contact dynamics. There is a need to investigate the principles of motion and coordination of physical interaction, including the aspe...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Ca...
Posture control is indispensable for both humans and humanoid robots, which becomes especially evide...
Abstract. Traditional industrial applications involve robots with limited mobili-ty. Consequently, i...
AbstractTraditional industrial applications involve robots with limited mobility. Consequently, inte...
Abstract—This paper proposes an effective framework of human-humanoid robot physical interaction. It...
International audienceWhether you are walking on a concrete floor, standing on a carpet, or sitting ...
International audienceThe essence of humanoid robots is their ability to reproduce human skills in l...
In this paper a quasi-static framework for optimally controlling the contact force distribution is e...
Abstract—We present how a humanoid robot, called Acroban, allows whole-body robust, natural and intu...
For physical human?robot interaction (pHRI) where multi-contacts play a key role, both robustness to...
Humanoid robots are considered as complex and challenging platforms, and the state of the art in rob...
In everyday life humans perform many tasks with other partners which involve coordination, involunta...
Introducing mobile humanoid robots into human environments requires the systems to physically intera...
The success of robots in real-world environments is largely dependent on their ability to interact w...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Ca...
Posture control is indispensable for both humans and humanoid robots, which becomes especially evide...
Abstract. Traditional industrial applications involve robots with limited mobili-ty. Consequently, i...
AbstractTraditional industrial applications involve robots with limited mobility. Consequently, inte...
Abstract—This paper proposes an effective framework of human-humanoid robot physical interaction. It...
International audienceWhether you are walking on a concrete floor, standing on a carpet, or sitting ...
International audienceThe essence of humanoid robots is their ability to reproduce human skills in l...
In this paper a quasi-static framework for optimally controlling the contact force distribution is e...
Abstract—We present how a humanoid robot, called Acroban, allows whole-body robust, natural and intu...
For physical human?robot interaction (pHRI) where multi-contacts play a key role, both robustness to...
Humanoid robots are considered as complex and challenging platforms, and the state of the art in rob...
In everyday life humans perform many tasks with other partners which involve coordination, involunta...
Introducing mobile humanoid robots into human environments requires the systems to physically intera...
The success of robots in real-world environments is largely dependent on their ability to interact w...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Ca...
Posture control is indispensable for both humans and humanoid robots, which becomes especially evide...