AIMS Mathematics (Aug 2024)

Adaptive exponential synchronization of impulsive coupled neutral stochastic neural networks with Lévy noise and probabilistic delays under non-Lipschitz conditions

  • Shuo Ma ,
  • Jiangman Li ,
  • Qiang Li ,
  • Ruonan Liu

DOI
https://doi.org/10.3934/math.20241214
Journal volume & issue
Vol. 9, no. 9
pp. 24912 – 24933

Abstract

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In this paper, we investigated the adaptive exponential synchronization problem of impulsive coupled neutral stochastic neural networks with Lévy noise and probabilistic delays under non-Lipschitz conditions. A stochastic variable with a Bernoulli distribution was utilized to transform the information regarding probabilistic delays into a model featuring deterministic time delays and stochastic parameters. In the context of adaptive controllers, exponential synchronization conditions depending on the delay, noise intensity, and impulse factor were derived using Lyapunov-Krasovskii functions, the nature of Lévy noise, and some inequality methods. To provide further support for the proposed approach, two numerical illustrations were presented.

Keywords