The implementation of a disturbance rejection controller for a 6-DOF PUMA manipulator mounted on a 3-DOF platform was described. A control algorithm is designed to track the desired position and attitude of the end-effector in inertial space, subject to unknown disturbances in the platform axes. Experimental results are presented for step, sinusoidal, and random disturbances in the platform rotational axis and in the neighborhood of kinematic singularities. Robotic manipulators were proposed as a means of reducing the amount of extra vehicular activity time required for space station assembly and maintenance. The proposed scenario involves a robotic manipulator attached to some mobile platform, such as a spacecraft, satellite, or the space ...
Autonomous space robots are crucial for performing future in-orbit operations, including servicing...
This paper is aimed at solving inverse kinematics of space manipulators mounted on a free-floating s...
When a space robot accidentally or voluntarily comes in contact with a target object, a workspace sh...
The motions of robotic manipulators mounted on spacecraft can disturb the spacecraft's positions and...
Described briefly is the work done during the first half year of a three-year study on dynamic contr...
Inertial devices, including sensors and actuators, offer the potential of improving the tracking of ...
For space based robots in which the base is free to move, motion planning and control is complicated...
The positioning control problem of the endtip of space manipulators whose base are uncontrolled is e...
The increasing number of satellites and space debris in the Earth orbit has created an urgent need t...
Disturbance-compensation control of a free-flying space robot is considered in this paper. In the me...
Future robotic manipulators carried by a spacecraft will be required to perform complex tasks in spa...
In this thesis a research activity is presented, concerning matters of dynamics and control of robot...
Disturbance-compensation control of a free-flying space robot is considered in this paper. In the me...
Resolved rate control of kinematically redundant ground based manipulators is a challenging problem....
Nonlinear control using feedback linearization or inverse dynamics for robotic manipulators yields g...
Autonomous space robots are crucial for performing future in-orbit operations, including servicing...
This paper is aimed at solving inverse kinematics of space manipulators mounted on a free-floating s...
When a space robot accidentally or voluntarily comes in contact with a target object, a workspace sh...
The motions of robotic manipulators mounted on spacecraft can disturb the spacecraft's positions and...
Described briefly is the work done during the first half year of a three-year study on dynamic contr...
Inertial devices, including sensors and actuators, offer the potential of improving the tracking of ...
For space based robots in which the base is free to move, motion planning and control is complicated...
The positioning control problem of the endtip of space manipulators whose base are uncontrolled is e...
The increasing number of satellites and space debris in the Earth orbit has created an urgent need t...
Disturbance-compensation control of a free-flying space robot is considered in this paper. In the me...
Future robotic manipulators carried by a spacecraft will be required to perform complex tasks in spa...
In this thesis a research activity is presented, concerning matters of dynamics and control of robot...
Disturbance-compensation control of a free-flying space robot is considered in this paper. In the me...
Resolved rate control of kinematically redundant ground based manipulators is a challenging problem....
Nonlinear control using feedback linearization or inverse dynamics for robotic manipulators yields g...
Autonomous space robots are crucial for performing future in-orbit operations, including servicing...
This paper is aimed at solving inverse kinematics of space manipulators mounted on a free-floating s...
When a space robot accidentally or voluntarily comes in contact with a target object, a workspace sh...