Previous works have developed impedance control to increase safety and improve performance in contact tasks, where the robot is in physical interaction with either an environment or a human user. This article investigates impedance learning for a robot guided by a human user while interacting with an unknown environment. We develop automatic adaptation of robot impedance parameters to reduce the effort required to guide the robot through the environment, while guaranteeing interaction stability. For nonrepetitive tasks, this novel adaptive controller can attenuate disturbances by learning appropriate robot impedance. Implemented as an iterative learning controller, it can compensate for position dependent disturbances in repeated movements....
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
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...
Impedance control has been widely used in robotic applications where a robot has physical interactio...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
This paper presents a novel human-like learning controller to interact with unknown environments. S...
This paper presents a novel enhanced human-robot interaction system based on model reference adaptiv...
International audienceThis paper presents an adaptive impedance control architecture for robotic tel...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
International audienceHumans can skilfully use tools and interact with the environment by adapting t...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
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...
Impedance control has been widely used in robotic applications where a robot has physical interactio...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
This paper presents a novel human-like learning controller to interact with unknown environments. S...
This paper presents a novel enhanced human-robot interaction system based on model reference adaptiv...
International audienceThis paper presents an adaptive impedance control architecture for robotic tel...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
International audienceHumans can skilfully use tools and interact with the environment by adapting t...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...