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Implementation of Fault-Tolerant Control for a Robot Manipulator Based on Synchronous Sliding Mode Control

Quang Dan Le, Hee‐Jun Kang

2020Applied Sciences25 citationsDOIOpen Access PDF

Abstract

In this paper, an active fault-tolerant control for a robot manipulator based on synchronous sliding mode is proposed. As the synchronization errors approach zero, the joint errors tend to become equal and also approach zero. Therefore, the synchronization technique is inherently effective for a fault-tolerant controller. To demonstrate such a system, the following implementation is presented. First, an estimator was designed with an extended state observer to estimate uncertainties/disturbances along with faults/failures. The estimator signal was used for an online compensator in the controller. A fault-tolerant controller with a combination of synchronous sliding mode technique and estimator was proposed. The stability of the system was established using Lyapunov theory. Finally, fault tolerant control was implemented in a three degree-of-freedom robot manipulator and compared to the conventional sliding mode control. This comparison shows the effectiveness of the proposed active fault-tolerant control with synchronous sliding mode technique.

Topics & Concepts

Control theory (sociology)EstimatorSliding mode controlFault toleranceController (irrigation)Observer (physics)Computer scienceControl engineeringState observerSynchronization (alternating current)Terminal sliding modeFault (geology)Lyapunov stabilityEngineeringControl (management)MathematicsArtificial intelligenceNonlinear systemQuantum mechanicsBiologyStatisticsGeologySeismologyDistributed computingChannel (broadcasting)AgronomyPhysicsComputer networkDistributed Control Multi-Agent SystemsAdaptive Control of Nonlinear SystemsNonlinear Dynamics and Pattern Formation
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