Title :
Fault tolerant control on robotic manipulator using sliding mode observers
Author :
Khireddine, M.S. ; Boutarfa, A.
Author_Institution :
LEA & LRP Labs., Univ. HL of Batna, Batna, Algeria
Abstract :
Fault tolerance is increasingly important in industrial robots. The ability to detect and tolerate failures allows robots to effectively cope with internal failures and continue performing designated tasks without the need for immediate human intervention. This paper presents new fault detection algorithms which detect failures in robot components using sliding-mode observers. An intelligent fault tolerance framework is proposed in which the detection algorithms work to detect and tolerate sensor or motor failures in a robot system. The nonlinear observer is designed to provide the estimation of unmeasurable state and modelling uncertainty, which are used to construct fault estimation algorithm. The effectiveness of the control and the fault tolerance strategy is analyzed in simulation.
Keywords :
failure analysis; fault diagnosis; fault tolerance; industrial manipulators; nonlinear control systems; observers; sensors; uncertain systems; variable structure systems; failure detection; fault detection; fault estimation algorithm; fault tolerant control; human intervention; industrial robot; intelligent fault tolerance framework; internal failure; motor failure; nonlinear observer; robot component; robotic manipulator; sensor failure; sliding mode observer; sliding-mode observer; uncertainty modelling; unmeasurable state estimation; Equations; Fault tolerance; Fault tolerant systems; Mathematical model; Observers; Robots; Vectors; Fault Diagnosis; Fault Isolation; Fault Tolerant Control; Robotic Manipulators; Sliding-Mode Observers;
Conference_Titel :
Computer Applications Technology (ICCAT), 2013 International Conference on
Conference_Location :
Sousse
Print_ISBN :
978-1-4673-5284-0
DOI :
10.1109/ICCAT.2013.6521999
