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Neural Network-Based Practical/Ideal Integral Sliding Mode Control

Nikolas Sacchi, Gian Paolo Incremona, Antonella Ferrara

2022IEEE Control Systems Letters21 citationsDOIOpen Access PDF

Abstract

This paper deals with the design of a novel neural network based integral sliding mode (NN-ISM) control for nonlinear systems with uncertain drift term and control effectiveness matrix. Specifically, this paper extends the classical integral sliding mode control law to the case of unknown nominal model. The latter is indeed reconstructed by two deep neural networks capable of approximating the unknown terms, which are instrumental to design the so-called integral sliding manifold. In the paper, the ultimate boundedness of the system state is formally proved by using Lyapunov stability arguments, thus providing the conditions to enforce practical integral sliding modes. The possible generation of ideal integral sliding modes is also discussed. Moreover, the effectiveness of the proposed NN-ISM control law is assessed in simulation relying on the classical Duffing oscillator.

Topics & Concepts

Integral sliding modeControl theory (sociology)Sliding mode controlIdeal (ethics)Artificial neural networkNonlinear systemManifold (fluid mechanics)Mode (computer interface)Computer scienceLyapunov functionMatrix (chemical analysis)MathematicsControl (management)LawEngineeringPhysicsArtificial intelligenceComposite materialPolitical scienceOperating systemQuantum mechanicsMechanical engineeringMaterials scienceAdaptive Control of Nonlinear SystemsAdaptive Dynamic Programming ControlIterative Learning Control Systems
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