Add to ORKGThis study introduces a Teleoperated Motion Scaling Robotic Arm (TMSRA) platform that allows the human operator to control the motion-mapping rate between the master (haptic console) and slave (robotic excavator) devices, while also providing force feedback and virtual safety functions to help prevent excessive force application by the slave device. This study experimentally evaluated the impact of motion scaling and force feedback on human users’ ability to perform simulated construction tasks. Experimental results from simulated robotic excavating and demolition tasks show that the maximum force applied to fictive buried facilities was reduced by 77.67% and 76.36% respectively due to the force feedback and safety function. Experimental re...
Robotic teleoperation enables humans to safely complete exploratory procedures in remote locations f...
A bilateral control system consists of two actuation systems which are separate but sends and receiv...
In this article, we describe two techniques to enable haptic-guided teleoperation using 7-DoF cobot ...
Intelligent and precise robotic systems are becoming essential for operating in harsh environments. ...
A thorough understanding of the requirements for successful master-slave robotic systems is becoming...
The ability of haptic feedback systems to grant the operator the perception of weight, gravity, resi...
Master-slave control is a common form of human-robot interaction for robotic surgery. To ensure seam...
PhD ThesisIt is becoming increasingly necessary to carry out manual operations in environments whic...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
At present there is a general industrial need to improve robot performance. Force feedback, which in...
A teleoperated, master-slave, sensory feedback control system was developed to increase the telepres...
This thesis reports on the effects of sensory substitution methods for force feedback during teleope...
The use of human operator managed robotics, especially for safety critical work, includes a shift fr...
Humans put their own lives aside to save other human’s life and perform risky and dangerous activiti...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
Robotic teleoperation enables humans to safely complete exploratory procedures in remote locations f...
A bilateral control system consists of two actuation systems which are separate but sends and receiv...
In this article, we describe two techniques to enable haptic-guided teleoperation using 7-DoF cobot ...
Intelligent and precise robotic systems are becoming essential for operating in harsh environments. ...
A thorough understanding of the requirements for successful master-slave robotic systems is becoming...
The ability of haptic feedback systems to grant the operator the perception of weight, gravity, resi...
Master-slave control is a common form of human-robot interaction for robotic surgery. To ensure seam...
PhD ThesisIt is becoming increasingly necessary to carry out manual operations in environments whic...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
At present there is a general industrial need to improve robot performance. Force feedback, which in...
A teleoperated, master-slave, sensory feedback control system was developed to increase the telepres...
This thesis reports on the effects of sensory substitution methods for force feedback during teleope...
The use of human operator managed robotics, especially for safety critical work, includes a shift fr...
Humans put their own lives aside to save other human’s life and perform risky and dangerous activiti...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
Robotic teleoperation enables humans to safely complete exploratory procedures in remote locations f...
A bilateral control system consists of two actuation systems which are separate but sends and receiv...
In this article, we describe two techniques to enable haptic-guided teleoperation using 7-DoF cobot ...