This article presents new closed-loop schemes for solving the inverse kinematics of constrained redundant manipulators. In order to exploit the space of redundancy, the end-effector task is suitably augmented by adding a constraint task. The success of the technique is guaranteed either by specifying the constraint task ad hoc or by resorting to a task priority strategy. Instead of previous inverse kinematics schemes that use the Jacobian pseudoinverse, the schemes in this work are shown to converge using the Jacobian transpose. A number of case studies illustrate different ways of solving redundancy in the context of the proposed schemes
Redundant manipulators are usually required to perform tasks in the operational space, but collision...
Redundant manipulators are usually required to perform tasks in the operational space, but collision...
Redundant manipulators have some advantages when compared with classical arms because they allow the...
This article presents new closed-loop schemes for solving the inverse kinematics of constrained redu...
Kinematically-redundant manipulators present considerable difficulties, especially from the view of ...
Kinematically redundant manipulators are considered, with a prespecified end-effector task and multi...
In this paper, we present a tentatively comprehensive tutorial report of the most recent literature ...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
© 2017 Elsevier Ltd This work addresses the inverse kinematic problem for redundant serial manipulat...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
Abstract — Considering the redundant degree of freedom(DoF) of open loop kinematic chain, the closed...
This paper is aimed at solving inverse kinematics of space manipulators mounted on a free-floating s...
There are two common methods for kinematic control of redundant manipulators. One is based on the us...
Redundant manipulators are usually required to perform tasks in the operational space, but collision...
Redundant manipulators are usually required to perform tasks in the operational space, but collision...
Redundant manipulators have some advantages when compared with classical arms because they allow the...
This article presents new closed-loop schemes for solving the inverse kinematics of constrained redu...
Kinematically-redundant manipulators present considerable difficulties, especially from the view of ...
Kinematically redundant manipulators are considered, with a prespecified end-effector task and multi...
In this paper, we present a tentatively comprehensive tutorial report of the most recent literature ...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
© 2017 Elsevier Ltd This work addresses the inverse kinematic problem for redundant serial manipulat...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
Abstract — Considering the redundant degree of freedom(DoF) of open loop kinematic chain, the closed...
This paper is aimed at solving inverse kinematics of space manipulators mounted on a free-floating s...
There are two common methods for kinematic control of redundant manipulators. One is based on the us...
Redundant manipulators are usually required to perform tasks in the operational space, but collision...
Redundant manipulators are usually required to perform tasks in the operational space, but collision...
Redundant manipulators have some advantages when compared with classical arms because they allow the...