What question did this study set out to answer?

This research aims to develop a control strategy for stochastic dynamics in switching reaction-diffusion neural networks.

May 7, 2026

Stochastic-Sampling-Based Event-Triggered Control for Switching Reaction–Diffusion Neural Networks

Key Points

This research aims to develop a control strategy for stochastic dynamics in switching reaction-diffusion neural networks.
Introduced sojourn probabilities to represent stochastic dynamics.
Developed stochastic-sampling-based event-triggered control scheme for optimization.
Simultaneously sampled in temporal and spatial dimensions using switching gains.
The new control strategy demonstrates enhanced transmission frequency optimization compared to traditional methods.
Numerical simulations confirm the efficacy of the proposed approach.

Abstract

This article addresses the issue of multiasynchronous time-space sampled-data control (SDC) for switching reaction-diffusion neural networks (SRDNNs) under stochastic sampling. Unlike the well-known transition probabilities, sojourn probabilities (SPs) are introduced to more precisely represent the stochastic dynamics of SRDNNs. Instead of using a fixed sampling interval, a stochastic variable is employed to describe the aperiodic nature of the sampling period, leading to a stochastic-sampling-based event-triggered scheme to optimize the transmission frequency. To enhance flexibility, a novel time-space SDC strategy is developed that conducts sampling simultaneously in both temporal and spatial dimensions while employing switching gains. Finally, the efficacy and superiority of the proposed control strategy are confirmed through a numerical simulation.

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