A trajectory generation method for space manipulators is introduced. The approach developed employs a manipulator with redundant kinematics. The method is implemented in two steps. First, the end-effector trajectory is developed to satisfy motion requirements. Next, the joint trajectories are developed to minimize base reactions. The analytical development of this method is described and an example illustrating the method is presented
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
Redundant space manipulators can perform robotic operations while minimizing the reactions transferr...
Manipulators, working in space, execute a wide range of tasks, such as loading or un- loading, servi...
One of the problems associated with redundant manipulators which were proposed for space application...
An important consideration in the use of manipulators in microgravity environments is the minimizati...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
For a manipulator mounted on a dynamic structure, as in space applications, the interactions with t...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
A manipulator that is performing a manoeuvre generates reaction forces and torques that dynamically ...
This paper presents a novel solution for the inverse kinematics of redundant space manipulators, whi...
This paper presents two novel redundancy resolution schemes aimed at locally minimizing the reaction...
Robots operating in the microgravity environment of an orbiting laboratory should be capable of mani...
In this paper the performance of a novel reaction control method recently introduced by some of the ...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
The term trajectory planning has been used to refer to the process of determining the time history o...
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
Redundant space manipulators can perform robotic operations while minimizing the reactions transferr...
Manipulators, working in space, execute a wide range of tasks, such as loading or un- loading, servi...
One of the problems associated with redundant manipulators which were proposed for space application...
An important consideration in the use of manipulators in microgravity environments is the minimizati...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
For a manipulator mounted on a dynamic structure, as in space applications, the interactions with t...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
A manipulator that is performing a manoeuvre generates reaction forces and torques that dynamically ...
This paper presents a novel solution for the inverse kinematics of redundant space manipulators, whi...
This paper presents two novel redundancy resolution schemes aimed at locally minimizing the reaction...
Robots operating in the microgravity environment of an orbiting laboratory should be capable of mani...
In this paper the performance of a novel reaction control method recently introduced by some of the ...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
The term trajectory planning has been used to refer to the process of determining the time history o...
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
Redundant space manipulators can perform robotic operations while minimizing the reactions transferr...
Manipulators, working in space, execute a wide range of tasks, such as loading or un- loading, servi...