The presence of redundant degrees of freedom in a manipulator structure leads to a physical phenomenon known as a self-motion, which is a continuous motion of the manipulator joints that leaves the end-effector motionless. In the first part of the paper, a global manifold mapping reformulation of manipulator kinematics is reviewed, and the inverse kinematic solution for redundant manipulators is developed in terms of self-motion manifolds. Global characterizations of the self-motion manifolds in terms of their number, geometry, homotopy class, and null space are reviewed using examples. Much previous work in redundant manipulator control has been concerned with the redundancy resolution problem, in which methods are developed to determine, ...
Thesis (Master)--Izmir Institute of Technology, Mechanical Engineering, Izmir, 2012Includes bibliogr...
A closed-form solution formula for the kinematic control of manipulators with redundancy is derive...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
This paper reviews one method of global kinematic analysis, based on a manifold mapping reformulatio...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
The kinematic control of a redundant manipulator involves determining a feasible solution to the non...
A new and simple approach to configuration control of redundant manipulators is presented. In this a...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
A redundant robot has more degrees of freedom than what is needed to uniquely position the robot end...
Hyper-redundant spatial manipulators possess fault-tolerant features because of their redundant stru...
As the field of robotics has a surge like never seen before, new possibilities for uses of robotic m...
Many conventional nonredundant manipulators have singu-lar configurations, near which some small mot...
In this article, we evaluate the self-motion curves of a 3R planar manipulator possessing one-degree...
This paper deals with the singularities of kinematically redundant manipulators in terms of determin...
The kinematic control of a planar manipulator with several-degrees of redundancy has been a difficul...
Thesis (Master)--Izmir Institute of Technology, Mechanical Engineering, Izmir, 2012Includes bibliogr...
A closed-form solution formula for the kinematic control of manipulators with redundancy is derive...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
This paper reviews one method of global kinematic analysis, based on a manifold mapping reformulatio...
The inverse kinematics solution, a modal position control algorithm, and path planning results for a...
The kinematic control of a redundant manipulator involves determining a feasible solution to the non...
A new and simple approach to configuration control of redundant manipulators is presented. In this a...
Research on control, design and programming of kinematically redundant robot manipulators (KRRM) is ...
A redundant robot has more degrees of freedom than what is needed to uniquely position the robot end...
Hyper-redundant spatial manipulators possess fault-tolerant features because of their redundant stru...
As the field of robotics has a surge like never seen before, new possibilities for uses of robotic m...
Many conventional nonredundant manipulators have singu-lar configurations, near which some small mot...
In this article, we evaluate the self-motion curves of a 3R planar manipulator possessing one-degree...
This paper deals with the singularities of kinematically redundant manipulators in terms of determin...
The kinematic control of a planar manipulator with several-degrees of redundancy has been a difficul...
Thesis (Master)--Izmir Institute of Technology, Mechanical Engineering, Izmir, 2012Includes bibliogr...
A closed-form solution formula for the kinematic control of manipulators with redundancy is derive...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...