To enable the space manipulator to complete the original task efficiently after any single joint fails, a fault-tolerant path planning method for the manipulator with single joint failure is proposed based on dexterity space in this paper. On the base of solving the degraded workspace, the dexterity space of the manipulator with single joint failure is established by constructing the dexterity index, and then the traditional A* algorithm is improved to complete fault-tolerant path planning in the dexterity space. The correctness and validity of fault-tolerant path planning based on improved A* algorithm are verified by simulating experiments with 7R manipulator
Nowadays industrial redundant manipulators have been playing important roles in manufacturing fields...
This paper was presented at the Proceedings of the 1994 IEEE International Conference on Robotics an...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...
To enable the space manipulator to complete the original task efficiently after any single joint fai...
A frequent concern for robot manipulators deployed in dangerous and hazardous environments for human...
Whether a task can be completed after a failure of one of the degrees-of-freedom of a redundant mani...
Whether a task can be completed after a failure of one of the degrees-of-freedom of a redundant mani...
This work considers the failure tolerant operation of a kinematically redundant manipulator in an en...
The redundancy feature of manipulators provides the possibility for the fault tolerant trajectory pl...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
Includes bibliographical references (page 4523).In addition to possessing a number of other importan...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
This paper was presented at the 1995 IEEE/RSJ International Conference on Intelligent Robots and Sys...
For a redundant manipulator a region in its workspace that is guaranteed failure tolerant, called th...
In this paper, we deal with two important issues in relation to modular recon gurable manipulators, ...
Nowadays industrial redundant manipulators have been playing important roles in manufacturing fields...
This paper was presented at the Proceedings of the 1994 IEEE International Conference on Robotics an...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...
To enable the space manipulator to complete the original task efficiently after any single joint fai...
A frequent concern for robot manipulators deployed in dangerous and hazardous environments for human...
Whether a task can be completed after a failure of one of the degrees-of-freedom of a redundant mani...
Whether a task can be completed after a failure of one of the degrees-of-freedom of a redundant mani...
This work considers the failure tolerant operation of a kinematically redundant manipulator in an en...
The redundancy feature of manipulators provides the possibility for the fault tolerant trajectory pl...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
Includes bibliographical references (page 4523).In addition to possessing a number of other importan...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
This paper was presented at the 1995 IEEE/RSJ International Conference on Intelligent Robots and Sys...
For a redundant manipulator a region in its workspace that is guaranteed failure tolerant, called th...
In this paper, we deal with two important issues in relation to modular recon gurable manipulators, ...
Nowadays industrial redundant manipulators have been playing important roles in manufacturing fields...
This paper was presented at the Proceedings of the 1994 IEEE International Conference on Robotics an...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...