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Adaptive Fuzzy Feedback Controller Design for Finite-Time Mittag-Leffler Synchronization of Fractional-Order Quaternion-Valued Reaction-Diffusion Fuzzy Molecular Modeling of Delayed Neural Networks

G. Narayanan, M. Syed Ali, Md Irshad Alam, Grienggrai Rajchakit, N. Boonsatit, Pankaj Kumar, Porpattama Hammachukiattikul

2021IEEE Access41 citationsDOIOpen Access PDF

Abstract

This paper addresses an adaptive fuzzy feedback controller design problem for finite-time Mittag-Leffler synchronization (FTMLS) of fractional-order quaternion-valued reaction-diffusion T-S fuzzy molecular modeling of delayed neural networks. A novel approach is proposed to effectively deal with the joint effects from fuzzy rules and reaction-diffusion terms for the class of T-S fuzzy fractional-order reaction-diffusion delayed quaternion-valued neural networks (FORDDQVNNs) under consideration. By employing Lyapunov stability theory, Caputo fractional derivative, several algebraic criteria are established to guarantee the FTMLS of T-S fuzzy FORDDQVNNs via designed fuzzy feedback controller. Moreover, the adaptive controller and parameter update laws are designed via adaptive control methods. Compared with existing results in the literature, we also show that our results are less conservative than existing ones with these illustrative T-S fuzzy FORDDQVNNs. A numerical example is presented to verify the analysis results and illustrate the effectiveness of the proposed FTMLS conditions.

Topics & Concepts

QuaternionFuzzy logicControl theory (sociology)Controller (irrigation)MathematicsFractional calculusSynchronization (alternating current)Adaptive controlArtificial neural networkFuzzy control systemComputer scienceApplied mathematicsArtificial intelligenceControl (management)Topology (electrical circuits)AgronomyGeometryCombinatoricsBiologyNeural Networks Stability and SynchronizationNonlinear Dynamics and Pattern FormationAdvanced NMR Techniques and Applications