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Disturbance and Uncertainty Rejection-Based on Fixed-Time Sliding-Mode Control for the Secure Communication of Chaotic Systems

Van Nam Giap, Hong-Son Vu, Quang Dich Nguyen, Shyh‐Chour Huang

2021IEEE Access33 citationsDOIOpen Access PDF

Abstract

This study provides a new development regarding uncertainty and disturbance estimation (UDE) based on fixed-time sliding mode control (FTSMC) for the secure communication of electronic circuits in a chaos-based system. Takagi-Sugeno (T-S) fuzzy systems were used to remodel chaotic systems with the aim of softening the control design for the synchronization of the chaos-based system. The master and slave systems of the secure communication system were maintained in chaotic formats. The originality of the proposed uncertainty and disturbance estimator is a condition associated with the first derivative of these values being free. The stability of the system was proven by using the Lyapunov condition. The states of master and slave systems were used for encryption and decryption, respectively. Finally, the correction of the proposed control theories was verified by MATLAB simulations, the simulation of the electronic circuits in OrCAD capture software, and experiments involving electronic circuit communication.

Topics & Concepts

Control theory (sociology)Computer scienceSecure communicationSynchronization (alternating current)ChaoticElectronic circuitEncryptionCHAOS (operating system)Control systemSliding mode controlLyapunov stabilityCommunications systemSynchronization of chaosEstimatorControl engineeringControl (management)Nonlinear systemMathematicsEngineeringTelecommunicationsArtificial intelligenceOperating systemQuantum mechanicsChannel (broadcasting)PhysicsStatisticsComputer securityElectrical engineeringChaos control and synchronizationChaos-based Image/Signal EncryptionQuantum chaos and dynamical systems
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