Add to ORKGThe problem of Cartesian trajectory control of a closed-kinematic chain mechanism robot manipulator, recently built at CAIR to study the assembly of NASA hardware for the future Space Station, is considered. The study is performed by both computer simulation and experimentation for tracking of three different paths: a straight line, a sinusoid, and a circle. Linearization and pole placement methods are employed to design controller gains. Results show that the controllers are robust and there are good agreements between simulation and experimentation. The results also show excellent tracking quality and small overshoots
Many recently developed control schemes for robotic manipulators require as inputs the desired posit...
Many recently developed control schemes for robotic manipulators require as inputs the desired posit...
Active cartesian force control of a teleoperated robot is investigated. An economical microcomputer ...
The problem of cartesian trajectory control of a closed-kinematic chain mechanism robot manipulator ...
A trajectory control scheme whose design is based on learning theory, for a six-degree-of-freedom (D...
The trajectory planning and control was studied of a robot manipulator that has 6 degrees of freedom...
This report presents results from the research grant entitled Active Control of Robot Manipulators, ...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
Robot dynamics and control will become an important issue for implementing productive platforms in s...
To study space applications of telerobotics, Goddard Space Flight Center (NASA) has recently built a...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
Many recently developed control schemes for robotic manipulators require as inputs the desired posit...
Many recently developed control schemes for robotic manipulators require as inputs the desired posit...
Active cartesian force control of a teleoperated robot is investigated. An economical microcomputer ...
The problem of cartesian trajectory control of a closed-kinematic chain mechanism robot manipulator ...
A trajectory control scheme whose design is based on learning theory, for a six-degree-of-freedom (D...
The trajectory planning and control was studied of a robot manipulator that has 6 degrees of freedom...
This report presents results from the research grant entitled Active Control of Robot Manipulators, ...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
Robot dynamics and control will become an important issue for implementing productive platforms in s...
To study space applications of telerobotics, Goddard Space Flight Center (NASA) has recently built a...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
The hardware implementation of a cartesian closed-loop control scheme will be presented which allows...
Many recently developed control schemes for robotic manipulators require as inputs the desired posit...
Many recently developed control schemes for robotic manipulators require as inputs the desired posit...
Active cartesian force control of a teleoperated robot is investigated. An economical microcomputer ...