One of the problems associated with redundant manipulators which were proposed for space applications is that the reactions transmitted to the base of the manipulator as a result of the motion of the manipulator will cause undesirable effects on the dynamic behavior of the supporting space structure. It is therefore necessary to minimize the magnitudes of the forces and moments transmitted to the base. It is shown that kinematic redundancy can be used to solve the dynamic problem of minimizing the magnitude of the base reactions. The methodology described is applied to a four degree-of-freedom spatial manipulator with one redundant degree-of-freedom
Kinematic redundancy occurs when a manipulator possesses more degrees of freedom than those require...
A new and simple approach to configuration control of redundant manipulators is presented. In this a...
The presence of redundant degrees of freedom in a manipulator structure leads to a physical phenomen...
A trajectory generation method for space manipulators is introduced. The approach developed employs ...
An important consideration in the use of manipulators in microgravity environments is the minimizati...
For a manipulator mounted on a dynamic structure, as in space applications, the interactions with t...
In this paper the performance of a novel reaction control method recently introduced by some of the ...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
This paper presents two novel redundancy resolution schemes aimed at locally minimizing the reaction...
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...
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
Hyper-redundant spatial manipulators possess fault-tolerant features because of their redundant stru...
Resolved rate control of kinematically redundant ground based manipulators is a challenging problem....
Kinematic redundancy occurs when a manipulator possesses more degrees of freedom than those require...
A new and simple approach to configuration control of redundant manipulators is presented. In this a...
The presence of redundant degrees of freedom in a manipulator structure leads to a physical phenomen...
A trajectory generation method for space manipulators is introduced. The approach developed employs ...
An important consideration in the use of manipulators in microgravity environments is the minimizati...
For a manipulator mounted on a dynamic structure, as in space applications, the interactions with t...
In this paper the performance of a novel reaction control method recently introduced by some of the ...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
This paper presents two novel redundancy resolution schemes aimed at locally minimizing the reaction...
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...
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
Hyper-redundant spatial manipulators possess fault-tolerant features because of their redundant stru...
Resolved rate control of kinematically redundant ground based manipulators is a challenging problem....
Kinematic redundancy occurs when a manipulator possesses more degrees of freedom than those require...
A new and simple approach to configuration control of redundant manipulators is presented. In this a...
The presence of redundant degrees of freedom in a manipulator structure leads to a physical phenomen...