Inertial devices, including sensors and actuators, offer the potential of improving the tracking of telerobotic commands for space-based robots by smoothing payload motions and suppressing vibrations. In this paper, inertial actuators (specifically, torque-wheels and reaction-masses) are studied for that potential application. Batch simulation studies are presented which show that torque-wheels can reduce the overshoot in abrupt stop commands by 82 percent for a two-link arm. For man-in-the-loop evaluation, a real-time simulator has been developed which samples a hand-controller, solves the nonlinear equations of motion, and graphically displays the resulting motion on a computer workstation. Currently, two manipulator models, a two-link, r...
This paper concerns the suppression of the vibration of a large flexible robot by inertial forces of...
Active cartesian force control of a teleoperated robot is investigated. An economical microcomputer ...
Dexterous telerobots incorporating 17 or more degrees of freedom operating under coordinated, sensor...
This research project dealt with the development of control methodologies which would effectively us...
In the Space Station era, more operations will be performed robotically in space in the areas of ser...
Research on space telerobotics is summarized. Adaptive control experiments on the Robotic Arm, Large...
An adaptive controller is developed for adjusting robot arm parameters while manipulating payloads o...
This paper presents an end-point control concept designed to enable precision telerobotic control of...
The implementation of a disturbance rejection controller for a 6-DOF PUMA manipulator mounted on a 3...
The mechanical behavior of master controllers of telemanipulators has been a concern of both designe...
The results of using a new technique for shaping inputs to a model of the space shuttle Remote Manip...
Control for the bracing strategy is being examined. It was concluded earlier that trajectory plannin...
Autonomous space robots will be required for such future missions as the construction of large space...
The results obtained show that it is possible to control light-weight robots with flexible links in ...
Problems and challenges of designing flight telerobot mechanisms are discussed. Specific experiences...
This paper concerns the suppression of the vibration of a large flexible robot by inertial forces of...
Active cartesian force control of a teleoperated robot is investigated. An economical microcomputer ...
Dexterous telerobots incorporating 17 or more degrees of freedom operating under coordinated, sensor...
This research project dealt with the development of control methodologies which would effectively us...
In the Space Station era, more operations will be performed robotically in space in the areas of ser...
Research on space telerobotics is summarized. Adaptive control experiments on the Robotic Arm, Large...
An adaptive controller is developed for adjusting robot arm parameters while manipulating payloads o...
This paper presents an end-point control concept designed to enable precision telerobotic control of...
The implementation of a disturbance rejection controller for a 6-DOF PUMA manipulator mounted on a 3...
The mechanical behavior of master controllers of telemanipulators has been a concern of both designe...
The results of using a new technique for shaping inputs to a model of the space shuttle Remote Manip...
Control for the bracing strategy is being examined. It was concluded earlier that trajectory plannin...
Autonomous space robots will be required for such future missions as the construction of large space...
The results obtained show that it is possible to control light-weight robots with flexible links in ...
Problems and challenges of designing flight telerobot mechanisms are discussed. Specific experiences...
This paper concerns the suppression of the vibration of a large flexible robot by inertial forces of...
Active cartesian force control of a teleoperated robot is investigated. An economical microcomputer ...
Dexterous telerobots incorporating 17 or more degrees of freedom operating under coordinated, sensor...