Humans can skilfully use tools and interact with the environment by adapting their movement trajectory, contact force, and impedance. Motivated by the human versatility, we develop here a robot controller that concurrently adapts feedforward force, impedance, and reference trajectory when interacting with an unknown environment. In particular, the robot’s reference trajectory is adapted to limit the interaction force and maintain it at a desired level, while feedforward force and impedance adaptation compensates for the interaction with the environment. An analysis of the interaction dynamics using Lyapunov theory yields the conditions for convergence of the closed-loop interaction mediated by this controller. Simulations exhibit adaptive p...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
This paper presents a novel human-like learning controller to interact with unknown environments. S...
International audienceHumans can skilfully use tools and interact with the environment by adapting t...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Previous works have developed impedance control to increase safety and improve performance in contac...
Previous works have developed impedance control to increase safety and improve performance in contac...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
Dynamic movement primitives (DMPs) allow complex position trajectories to be efficiently demonstrate...
International audienceThis paper presents an adaptive impedance control architecture for robotic tel...
This paper presents a novel enhanced human-robot interaction system based on model reference adaptiv...
Humans use their limbs to perform various movements to interact with an external environment. Thanks...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
This paper presents a novel human-like learning controller to interact with unknown environments. S...
International audienceHumans can skilfully use tools and interact with the environment by adapting t...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Previous works have developed impedance control to increase safety and improve performance in contac...
Previous works have developed impedance control to increase safety and improve performance in contac...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
Dynamic movement primitives (DMPs) allow complex position trajectories to be efficiently demonstrate...
International audienceThis paper presents an adaptive impedance control architecture for robotic tel...
This paper presents a novel enhanced human-robot interaction system based on model reference adaptiv...
Humans use their limbs to perform various movements to interact with an external environment. Thanks...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
This paper presents a novel human-like learning controller to interact with unknown environments. S...