The minimization of energy consumption is of the utmost importance in space robotics. For redundant manipulators tracking a desired end-effector trajectory, most of the proposed solutions are based on locally optimal inverse kinematics methods. On the one hand, these methods are suitable for real-time implementation; nevertheless, on the other hand, they often provide solutions quite far from the globally optimal one and, moreover, are prone to singularities. In this paper, a novel inverse kinematics method for redundant manipulators is presented, which overcomes the above mentioned issues and is suitable for real-time implementation. The proposed method is based on the optimization of the kinetic energy integral on a limited subset of futu...
The resolved rate law for a manipulator provides the instantaneous joint rates required to satisfy a...
The interest in novel engineering methods andtools for optimizing the energy consumption in robotic ...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
This paper presents a novel inverse kinematics global method for a redundant robot manipulator perfo...
One of the problems associated with redundant manipulators which were proposed for space application...
Two methods are presented to obtain optimal inverse kinematic solutions for redundant manipulators, ...
A trajectory generation method for space manipulators is introduced. The approach developed employs ...
This paper presents inverse position kinematics algorithms with real time capability for Justin, a r...
The solution of the inverse kinematics is required in many technical applications. In this contribut...
Several kinematic techniques for the trajectory optimization of redundant manipulators control the g...
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 we compare the computational efficiency of four methods for solving the practical inve...
Solving the analytical inverse kinematics (IK) of redundant manipulators in real time is a difficult...
The resolved rate law for a manipulator provides the instantaneous joint rates required to satisfy a...
The interest in novel engineering methods andtools for optimizing the energy consumption in robotic ...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
The minimization of energy consumption is of the utmost importance in space robotics. For redundant ...
This paper presents a novel inverse kinematics global method for a redundant robot manipulator perfo...
One of the problems associated with redundant manipulators which were proposed for space application...
Two methods are presented to obtain optimal inverse kinematic solutions for redundant manipulators, ...
A trajectory generation method for space manipulators is introduced. The approach developed employs ...
This paper presents inverse position kinematics algorithms with real time capability for Justin, a r...
The solution of the inverse kinematics is required in many technical applications. In this contribut...
Several kinematic techniques for the trajectory optimization of redundant manipulators control the g...
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 we compare the computational efficiency of four methods for solving the practical inve...
Solving the analytical inverse kinematics (IK) of redundant manipulators in real time is a difficult...
The resolved rate law for a manipulator provides the instantaneous joint rates required to satisfy a...
The interest in novel engineering methods andtools for optimizing the energy consumption in robotic ...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...