Assistive robotics aims to design physically collaborative robots which are able to help human partners with cumbersome tasks; for instance, lifting a heavy plank/guard and inserting it into a frame at the ceiling. To reduce human load-share, it is expected from the robot to perform such tasks in coordination with the human partner. Uncertainty of human behavior and complex dynamics of real-world environments pose challenging problems for robotic systems. It is crucial to employ control frameworks that allow for both motion tracking and interaction/force control. Furthermore, the framework should allow for reactive and adaptive motion planning toward human behavior. To deliver these requirements, we propose a Dynamical System-based control ...
Human-robot collaborative tasks foresee interactions between humans and robots with various degrees ...
Robotic systems are more and more present in our daily life. Robots became indeed more economical, e...
In this dissertation, we present a solution to the motion planning and control problem that combines...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
In this work, we present an adaptive motion planning approach for impedance-controlled robots to mod...
This paper proposes a novel framework for robotic manipulation tasks, exploiting the Human-Robot Col...
Human-robot collaboration seeks to have humans and robots closely interacting in everyday situations...
In human-robot collaboration (HRC), the variability of the human behavior complicates the deployment...
Co-existence of human and robot in the same workspace requires the robot to perform robot tasks such...
The co-presence of a robot and a human sharing some activities in an industrial setting constitutes ...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
In the context of human-robot collaboration in close proximity, safety and comfort are the two impor...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
This thesis investigates a reactive motion planning and controller framework that enables robots to ...
Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several ch...
Human-robot collaborative tasks foresee interactions between humans and robots with various degrees ...
Robotic systems are more and more present in our daily life. Robots became indeed more economical, e...
In this dissertation, we present a solution to the motion planning and control problem that combines...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
In this work, we present an adaptive motion planning approach for impedance-controlled robots to mod...
This paper proposes a novel framework for robotic manipulation tasks, exploiting the Human-Robot Col...
Human-robot collaboration seeks to have humans and robots closely interacting in everyday situations...
In human-robot collaboration (HRC), the variability of the human behavior complicates the deployment...
Co-existence of human and robot in the same workspace requires the robot to perform robot tasks such...
The co-presence of a robot and a human sharing some activities in an industrial setting constitutes ...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
In the context of human-robot collaboration in close proximity, safety and comfort are the two impor...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
This thesis investigates a reactive motion planning and controller framework that enables robots to ...
Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several ch...
Human-robot collaborative tasks foresee interactions between humans and robots with various degrees ...
Robotic systems are more and more present in our daily life. Robots became indeed more economical, e...
In this dissertation, we present a solution to the motion planning and control problem that combines...