Add to ORKGThis paper develops a Markovian jump model to describe the fault occurrence in a manipulator robot of three joints. This model includes the changes of operation points and the probability that a fault occurs in an actuator. After a fault, the robot works as a manipulator with free joints. Based on the developed model, a comparative study among three Markovian controllers, H(2), H(infinity), and mixed H(2)/H(infinity) is presented, applied in an actual manipulator robot subject to one and two consecutive faults
Operations in hazardous and/or remote environments are often performed by robots. The hostile nature...
A Fault Tolerant adaptive control for a robotic manipulator with fault affecting the joint actuator...
Control systems that ensure robot operation during failures are necessary, particularly when manipul...
This paper develops a Markovian jump model to describe the fault occurrence in a manipulator robot o...
Este trabalho trata do controle Markoviano aplicado a um robô manipulador visando obter um sistema t...
When a robotic manipulator is fault tolerant it is beneficial to study the configurations which tole...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
A Fault Tolerant Control (FTC) scheme for robotic manipulators affected by actuator faults is propos...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Fault-tolerant motion of redundant manipulators can be obtained by joint velocity reconfiguration. F...
In this article, the authors investigate the fault tolerance of manip-ulators in their nominal confi...
This paper proposed a finite-time backstepping control for a robotic manipulator under the presence ...
Autonomous or teleoperation of critical tasks in space applications require fault tolerant robotic m...
This paper proposes an active fault-tolerant control (FTC) scheme for robotic manipulators subject t...
Operations in hazardous and/or remote environments are often performed by robots. The hostile nature...
A Fault Tolerant adaptive control for a robotic manipulator with fault affecting the joint actuator...
Control systems that ensure robot operation during failures are necessary, particularly when manipul...
This paper develops a Markovian jump model to describe the fault occurrence in a manipulator robot o...
Este trabalho trata do controle Markoviano aplicado a um robô manipulador visando obter um sistema t...
When a robotic manipulator is fault tolerant it is beneficial to study the configurations which tole...
Robot failures are not uncommon, with consequences ranging from economic impact in industrial applic...
Robotic manipulators have been identified as a major technology to be utilized in the cleanup and ma...
A Fault Tolerant Control (FTC) scheme for robotic manipulators affected by actuator faults is propos...
This thesis addresses “Optimal Fault-Tolerant Robotic Manipulators” for locked-joint fai...
Fault-tolerant motion of redundant manipulators can be obtained by joint velocity reconfiguration. F...
In this article, the authors investigate the fault tolerance of manip-ulators in their nominal confi...
This paper proposed a finite-time backstepping control for a robotic manipulator under the presence ...
Autonomous or teleoperation of critical tasks in space applications require fault tolerant robotic m...
This paper proposes an active fault-tolerant control (FTC) scheme for robotic manipulators subject t...
Operations in hazardous and/or remote environments are often performed by robots. The hostile nature...
A Fault Tolerant adaptive control for a robotic manipulator with fault affecting the joint actuator...
Control systems that ensure robot operation during failures are necessary, particularly when manipul...