As an important part of the manufacturing industry, redundant robots can undertake heavy and tough tasks, which human operators are difficult to sustain. Such onerous and repetitive industrial manipulations, that is, positioning and carrying, impose heavy burdens on the load bearing for redundancy robots' joints. Under the circumstances of long-term and intense industrial operations, joints of redundant robots are conceivably to fall into functional failure, which may possibly cause abrupt joint lock or freeze at unknown time instants. Therefore, task accuracy by end-effectors tends to diminish considerably and gradually because of broken-down joints. In this paper, a sparsity-based method for fault-tolerant motion planning of redundant rob...
Includes bibliographical references (page 5000).This work considers kinematic failure tolerance when...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...
Nowadays industrial redundant manipulators have been playing important roles in manufacturing fields...
This is the pre-print of an article to appear in the journal Reliability Engineering and Systems Saf...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
Fault tolerant manipulators maintain their trajectory even if their joint/s fails. Assuming that the...
For targeted motion control tasks of manipulators, it is frequently necessary to make use of full le...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
This paper presents a new approach of joint velocities redistribution for kinematic fault-tolerant c...
This paper was presented at the 1995 IEEE/RSJ International Conference on Intelligent Robots and Sys...
Includes bibliographical references (pages 1115-1116).This work considers real-time fault-tolerant c...
This paper was presented at the Proceedings of the 1994 IEEE International Conference on Robotics an...
This work is a contribution to illustrate the fault tolerance concepts in robotics. Every step from ...
Whether a task can be completed after a failure of one of the degrees-of-freedom of a redundant mani...
Includes bibliographical references (page 5000).This work considers kinematic failure tolerance when...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...
Nowadays industrial redundant manipulators have been playing important roles in manufacturing fields...
This is the pre-print of an article to appear in the journal Reliability Engineering and Systems Saf...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
Fault tolerant manipulators maintain their trajectory even if their joint/s fails. Assuming that the...
For targeted motion control tasks of manipulators, it is frequently necessary to make use of full le...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
This paper presents a new approach of joint velocities redistribution for kinematic fault-tolerant c...
This paper was presented at the 1995 IEEE/RSJ International Conference on Intelligent Robots and Sys...
Includes bibliographical references (pages 1115-1116).This work considers real-time fault-tolerant c...
This paper was presented at the Proceedings of the 1994 IEEE International Conference on Robotics an...
This work is a contribution to illustrate the fault tolerance concepts in robotics. Every step from ...
Whether a task can be completed after a failure of one of the degrees-of-freedom of a redundant mani...
Includes bibliographical references (page 5000).This work considers kinematic failure tolerance when...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Abstract—This work presents a method for identifying all the kinematic designs of spatial positionin...