In this work, we present an adaptive motion planning approach for impedance-controlled robots to modify their tasks based on human physical interactions. We use a class of parameterized time-independent dynamical systems for motion generation where the modulation of such parameters allows for motion flexibility. To adapt to human interactions, we update the parameter of our dynamical system in order to reduce the tracking error (i.e., between the desired trajectory generated by the dynamical system and the real trajectory influenced by the human interaction). We provide analytical analysis and several simulations of our method. Finally, we investigate our approach through real world experiments with 7-DOF KUKA LWR 4+ robot performing tasks ...
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...
As technology continues to evolve, robots are becoming an intrinsic part of our lives. While robots ...
The goal of this work is to enable robots to intelligently and compliantly adapt their motions to th...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
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...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
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...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
Robust dynamic interactions are required to move robots in daily environments alongside humans. Opti...
This paper presents a novel enhanced human-robot interaction system based on model reference adaptiv...
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...
As technology continues to evolve, robots are becoming an intrinsic part of our lives. While robots ...
The goal of this work is to enable robots to intelligently and compliantly adapt their motions to th...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
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...
Abstract— This paper presents a novel human-like learning controller to interact with unknown envir...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
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...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
Robust dynamic interactions are required to move robots in daily environments alongside humans. Opti...
This paper presents a novel enhanced human-robot interaction system based on model reference adaptiv...
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...
As technology continues to evolve, robots are becoming an intrinsic part of our lives. While robots ...