The remote control of robots, known as teleoperation, is a non-trivial task, requiring the operator to make decisions based on the information relayed by the robot about its own status as well as its surroundings. This places the operator under significant cognitive load. A solution to this involves sharing this load between the human operator and automated operators. This paper builds on the idea of adjustable autonomy, proposing Assigned Responsibility, a way of clearly delimiting control responsibility over one or more robots between human and automated operators. An architecture for implementing Assigned Responsibility is presented
Lausanne (EPFL) served as host institution (institution d’accueil) for this thesis and provided rese...
Abstract: In emergency situations, rescue teams combined of humans and robots in place, as well as ...
Intelligent viewing systems are required if efficient and productive teleoperation is to be applied ...
The remote control of robots, known as teleoperation, is a non-trivial task, requiring the operator ...
This paper proposes an architecture that explores a gap in the spectrum of existing strategies for r...
Teleoperated robots are well suited to many tasks involving actions in hazardous environments due to...
For many dangerous, dirty or dull tasks like in search and rescue missions, deployment of autonomous...
This paper describes current work on a cooperative tele-assistance system for semi-autonomous contro...
Telerobotic systems have traditionally been designed and operated from a human point of view. Though...
International audienceIn the robotics community, numerous works deal with robots autonomy. In the fi...
: In this paper a control architecture and system is proposed which allows human supervisory for te...
International audienceThis paper presents a specific architecture based on a multilevel formalism to...
Multi-robot manipulation tasks are challenging for robots to complete in an entirely autonomous way ...
International audienceSharing the control of a robotic system with an autonomous controller allows a...
In the context of supervisory control of one or several artificial agents by a human operator, the d...
Lausanne (EPFL) served as host institution (institution d’accueil) for this thesis and provided rese...
Abstract: In emergency situations, rescue teams combined of humans and robots in place, as well as ...
Intelligent viewing systems are required if efficient and productive teleoperation is to be applied ...
The remote control of robots, known as teleoperation, is a non-trivial task, requiring the operator ...
This paper proposes an architecture that explores a gap in the spectrum of existing strategies for r...
Teleoperated robots are well suited to many tasks involving actions in hazardous environments due to...
For many dangerous, dirty or dull tasks like in search and rescue missions, deployment of autonomous...
This paper describes current work on a cooperative tele-assistance system for semi-autonomous contro...
Telerobotic systems have traditionally been designed and operated from a human point of view. Though...
International audienceIn the robotics community, numerous works deal with robots autonomy. In the fi...
: In this paper a control architecture and system is proposed which allows human supervisory for te...
International audienceThis paper presents a specific architecture based on a multilevel formalism to...
Multi-robot manipulation tasks are challenging for robots to complete in an entirely autonomous way ...
International audienceSharing the control of a robotic system with an autonomous controller allows a...
In the context of supervisory control of one or several artificial agents by a human operator, the d...
Lausanne (EPFL) served as host institution (institution d’accueil) for this thesis and provided rese...
Abstract: In emergency situations, rescue teams combined of humans and robots in place, as well as ...
Intelligent viewing systems are required if efficient and productive teleoperation is to be applied ...