Fault-tolerant motion of redundant manipulators can be obtained by joint velocity reconfiguration. For fault-tolerant manipulators, it is beneficial to determine the configurations that can tolerate the locked-joint failures with a minimum relative joint velocity jump, because the manipulator can rapidly reconfigure itself to tolerate the fault. This paper uses the properties of the condition numbers to introduce those optimal configurations for serial manipulators. The relationship between the manipulator\u27s locked-joint failures and the condition number of the Jacobian matrix is indicated by using a matrix perturbation methodology. Then, it is observed that the condition number provides an upper bound of the required relative joint velo...
The redundancy feature of manipulators provides the possibility for the fault tolerant trajectory pl...
In this article, the authors investigate the fault tolerance of manip-ulators in their nominal confi...
This paper presents a new approach of joint velocities redistribution for kinematic fault-tolerant c...
When a robotic manipulator is fault tolerant it is beneficial to study the configurations which tole...
2014 Fall.It is common practice to design a robot's kinematics from the desired properties that are ...
Abstract — In this article, the authors examine the problem of designing nominal manipulator Jacobia...
Includes bibliographical references (pages 356-357).Kinematically redundant manipulators have been p...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Fault tolerant manipulators maintain their trajectory even if their joint/s fails. Assuming that the...
If the end-effector of a robotic manipulator moves on a specified trajectory, then for the fault tol...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
Fault tolerance of robotic manipulators is determined based on the fault tolerance measures. In this...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
The design of locally optimal fault-tolerant manipulators has been previously addressed via adding c...
The redundancy feature of manipulators provides the possibility for the fault tolerant trajectory pl...
In this article, the authors investigate the fault tolerance of manip-ulators in their nominal confi...
This paper presents a new approach of joint velocities redistribution for kinematic fault-tolerant c...
When a robotic manipulator is fault tolerant it is beneficial to study the configurations which tole...
2014 Fall.It is common practice to design a robot's kinematics from the desired properties that are ...
Abstract — In this article, the authors examine the problem of designing nominal manipulator Jacobia...
Includes bibliographical references (pages 356-357).Kinematically redundant manipulators have been p...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Fault tolerant manipulators maintain their trajectory even if their joint/s fails. Assuming that the...
If the end-effector of a robotic manipulator moves on a specified trajectory, then for the fault tol...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
Fault tolerance of robotic manipulators is determined based on the fault tolerance measures. In this...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
The design of locally optimal fault-tolerant manipulators has been previously addressed via adding c...
The redundancy feature of manipulators provides the possibility for the fault tolerant trajectory pl...
In this article, the authors investigate the fault tolerance of manip-ulators in their nominal confi...
This paper presents a new approach of joint velocities redistribution for kinematic fault-tolerant c...