Add to ORKGAutomation in a domestic environment is not flawless and human interference will be necessary, for implementing robots in this environment. When remotely controlling semi-autonomous robots, proposed concepts can be divided into two main concepts: To trade control back and forth between the human and the operator and to share control continuously. However, a deep analysis lacks about when either of these methods is useful. This study focuses on comparing task completion time and task behavior Trading Control (TC) and Haptic Shared Control (HSC) using a mix of accurate models of the tasks and models with a small translational offset. These are examined in the current mix as well as separated into models that were accurate or did contain an of...
In teleoperation, haptic feedback allows the human operator to touch the remote environment. Yet, it...
In teleoperation, haptic feedback allows the human operator to touch the remote environment. Yet, it...
Shared control strategies can improve task performance in teleoperation. In such systems, automation...
Telemanipulation allows human to perform operations in a remote environment, but performance and req...
An tele-operation, haptic feedback from the remote environment to the human is often limited, which ...
Tele-manipulation allows human to perform operations in a remote environment, but performance and re...
Teleoperation – performing tasks remotely by controlling a robot – permits the execution of many imp...
Literature points to persistent issues in humanautomation interaction, which are caused either when ...
Shared control allows to share the available degrees of freedom of a robotic system between the oper...
To improve teleoperated task performance and control effort, haptic shared control can assist the hu...
International audienceRobotic telemanipulators are already widely used in nuclear decommissioning si...
Haptic Shared Control (HSC) can improve operator performance during teleoperation. HSC uses assistiv...
In multi-robot control, robots need the ability to perform well in the absence of valid human input....
Haptic shared control is a promising approach to improve tele-manipulated task execution, by making ...
In teleoperation, haptic feedback allows the human operator to touch the remote environment. Yet, it...
In teleoperation, haptic feedback allows the human operator to touch the remote environment. Yet, it...
Shared control strategies can improve task performance in teleoperation. In such systems, automation...
Telemanipulation allows human to perform operations in a remote environment, but performance and req...
An tele-operation, haptic feedback from the remote environment to the human is often limited, which ...
Tele-manipulation allows human to perform operations in a remote environment, but performance and re...
Teleoperation – performing tasks remotely by controlling a robot – permits the execution of many imp...
Literature points to persistent issues in humanautomation interaction, which are caused either when ...
Shared control allows to share the available degrees of freedom of a robotic system between the oper...
To improve teleoperated task performance and control effort, haptic shared control can assist the hu...
International audienceRobotic telemanipulators are already widely used in nuclear decommissioning si...
Haptic Shared Control (HSC) can improve operator performance during teleoperation. HSC uses assistiv...
In multi-robot control, robots need the ability to perform well in the absence of valid human input....
Haptic shared control is a promising approach to improve tele-manipulated task execution, by making ...
In teleoperation, haptic feedback allows the human operator to touch the remote environment. Yet, it...
In teleoperation, haptic feedback allows the human operator to touch the remote environment. Yet, it...
Shared control strategies can improve task performance in teleoperation. In such systems, automation...