In this paper, a kinematic model for motion coordination of a redundant multi-fingered robotic hand is derived, which allows to compute the object pose from the joint variables of each finger as well as from a suitable set of contact variables. Then, a prioritized inverse kinematics scheme with redundancy resolution, both with inverse and transpose Jacobian matrix, is developed. This algorithm can be used for kinematic control as well as a local planning method for dexterous manipulation. A simulation case study is presented to demonstrate the effectiveness of the proposed approach
A numerical scheme was developed to solve the inverse kinematics for a user-defined manipulator. The...
In this paper, a kinematic model of a dual-arm/hand robotic system is derived, which allows the comp...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
In this paper, a kinematic model for motion coordination of a redundant multi-fingered robotic hand ...
Kinematically-redundant manipulators present considerable difficulties, especially from the view of ...
In this report, a method for exploiting the redundant degrees of freedom of a hand-arm mechanical sy...
In this paper, a kinematic model for motion coordination and control of a redundant robotic dual-arm...
Abstract — In this paper, a kinematic model for motion coordination and control of a redundant robot...
This article reports the results of an experimental investigation of real-time kinematic control on ...
Beside our arms, it is our hands that help us to perform tasks. At first glance, we seems to move ou...
In order to enhance dexterity in execution of robot tasks, a redundant number of degrees-of-freedom ...
This article presents new closed-loop schemes for solving the inverse kinematics of constrained redu...
This article reports the results of an experimental investigation of real-time kinematic control on ...
A numerical scheme was developed to solve the inverse kinematics for a user-defined manipulator. The...
In this paper, a kinematic model of a dual-arm/hand robotic system is derived, which allows the comp...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
In this paper, a kinematic model for motion coordination of a redundant multi-fingered robotic hand ...
Kinematically-redundant manipulators present considerable difficulties, especially from the view of ...
In this report, a method for exploiting the redundant degrees of freedom of a hand-arm mechanical sy...
In this paper, a kinematic model for motion coordination and control of a redundant robotic dual-arm...
Abstract — In this paper, a kinematic model for motion coordination and control of a redundant robot...
This article reports the results of an experimental investigation of real-time kinematic control on ...
Beside our arms, it is our hands that help us to perform tasks. At first glance, we seems to move ou...
In order to enhance dexterity in execution of robot tasks, a redundant number of degrees-of-freedom ...
This article presents new closed-loop schemes for solving the inverse kinematics of constrained redu...
This article reports the results of an experimental investigation of real-time kinematic control on ...
A numerical scheme was developed to solve the inverse kinematics for a user-defined manipulator. The...
In this paper, a kinematic model of a dual-arm/hand robotic system is derived, which allows the comp...
Redundancy offers a potential over nonredundancy in robot design and control in terms of greater mot...
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