What question did this study set out to answer?

To explore the use of dynamic event-triggered control and encoding-decoding schemes for synchronizing T-S fuzzy neural networks.

March 25, 2026Open Access

Event-Triggered Synchronization of T-S Fuzzy Neural Network with Quantized Encoding–Decoding Mechanism

Key Points

To explore the use of dynamic event-triggered control and encoding-decoding schemes for synchronizing T-S fuzzy neural networks.
Developed a dynamic event-triggered control mechanism.
Implemented an encoding-decoding scheme to enhance signal transmission.
Constructed Lyapunov-Krasovskii functional for synchronization criteria.
Conducted numerical simulations to validate the proposed method.
Achieved effective synchronization of T-S fuzzy neural networks.
Demonstrated advantages of event-triggered control in managing communication rates.
Validated the benefits of the encoding-decoding scheme in signal protection.

Abstract

This paper investigates dynamic event-triggered control (DETC) and encoding–decoding schemes to achieve the synchronization of T-S fuzzy neural networks (FNNs). DETC allows the transmission signals to be controlled aperiodically during the actual operation of the system, enabling a rapid response to practical control tasks. Meanwhile, during the event-triggered control process, an encoding–decoding scheme with externally injected noise is used to protect the signals. First, a dynamic event-triggered control mechanism is established, and an encoding–decoding scheme is used to optimize the transmission of controller signals. Subsequently, the Lyapunov–Krasovskii functional is constructed to derive the system’s synchronization criteria and calculate the controller gains. Finally, numerical simulation experiments are conducted to verify the effectiveness and feasibility of the proposed method.

Event-Triggered Synchronization of T-S Fuzzy Neural Network with Quantized Encoding–Decoding Mechanism

Key Points

Abstract

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