In this work we consider the current certification process of applications with physical human–robot interaction (pHRI). Two major hazards are collisions and clamping scenarios. The implementation of safety measures in pHRI applications typically depends strongly on coordinates, e.g., to monitor the robot velocity or to predict external forces. We show that the current certification process does not, in general, guarantee a safe robot behavior. In particular, in unstructured environments it is not possible to predict all risks in advance. We therefore propose to control the energy of the robot, which is a coordinate invariant entity. For an impedance controlled robot, the total energy consists of potential energy and kinetic energy. The en...
Several interaction control algorithms have been proposed for physical human-robot interaction (pHRI...
We present an approach to safe physical Human-Robot Interaction (pHRI) for industrial robots, includ...
Enabling human-robot collaboration raises new challenges in safety-oriented robot design and control...
In this work we consider the current certification process of applications with physical human–robot...
While collision detection and contact-related injury reduction in physical human-robot interaction h...
Safety is essential for robots in unknown environments, especially when there is physical Human–Robo...
Safety is essential for robots in unknown environments, especially when there is physical Human-Robo...
Energy and energy exchange govern interactions in the physical world. By explicitly considering the ...
In contexts where robots share their workspace with humans, safety is of utmost importance. Conseque...
A broad spectrum of issues have to be addressed in order to tackle the problem of a safe and dependa...
This thesis develops human-robot interaction strategies that ensure the safety of the human partici...
This paper proposes a unified energy-based modeling and energy-aware control paradigm for robotic sy...
If robots are to be introduced into the human world as assistants to aid a person in the completion ...
To this day, most robots are installed behind safety fences, separated from the human. New use-case ...
Robotics research is looking forward to the possibility of bringing closer humans and robots. Thus, ...
Several interaction control algorithms have been proposed for physical human-robot interaction (pHRI...
We present an approach to safe physical Human-Robot Interaction (pHRI) for industrial robots, includ...
Enabling human-robot collaboration raises new challenges in safety-oriented robot design and control...
In this work we consider the current certification process of applications with physical human–robot...
While collision detection and contact-related injury reduction in physical human-robot interaction h...
Safety is essential for robots in unknown environments, especially when there is physical Human–Robo...
Safety is essential for robots in unknown environments, especially when there is physical Human-Robo...
Energy and energy exchange govern interactions in the physical world. By explicitly considering the ...
In contexts where robots share their workspace with humans, safety is of utmost importance. Conseque...
A broad spectrum of issues have to be addressed in order to tackle the problem of a safe and dependa...
This thesis develops human-robot interaction strategies that ensure the safety of the human partici...
This paper proposes a unified energy-based modeling and energy-aware control paradigm for robotic sy...
If robots are to be introduced into the human world as assistants to aid a person in the completion ...
To this day, most robots are installed behind safety fences, separated from the human. New use-case ...
Robotics research is looking forward to the possibility of bringing closer humans and robots. Thus, ...
Several interaction control algorithms have been proposed for physical human-robot interaction (pHRI...
We present an approach to safe physical Human-Robot Interaction (pHRI) for industrial robots, includ...
Enabling human-robot collaboration raises new challenges in safety-oriented robot design and control...