Multistability of state-dependent switched neural networks with Mexican-hat-type activation functions

IF 2.7 3区数学 Q1 MATHEMATICS, APPLIED Physica D: Nonlinear Phenomena Pub Date : 2024-09-17 DOI:10.1016/j.physd.2024.134363

引用次数: 0

Abstract

This paper investigates the issue of multistability in state-dependent switched neural networks (SSNNs) with Mexican-hat-type activation functions (AFs). It establishes the coexistence and stability of multiple equilibrium points (EPs). Initially, the state space is partitioned based on the geometric characteristics of the Mexican-hat-type AF, enabling to determine the positions of the EPs. Secondly, the coexistence of $9^{h_{1}} 7^{h_{2}} 5^{h_{3}} 3^{h_{4}}$ EPs for $n$ -neurons SSNNs under specific sufficient conditions is proved with the Brouwer’s fixed-point theorem. Next, by using diagonally dominant matrix theory and Gershgorin circle theorem, it is proven that there are $5^{h_{1}} 4^{h_{2}} 3^{h_{3}} 2^{h_{4}}$ asymptotically stable EPs under some conditions, where $h_{1}, h_{2}, h_{3}$ and $h_{4}$ are nonnegative integers satisfying $0 \leq h_{1} + h_{2} + h_{3} + h_{4} \leq n$ . Therefore, we can obtain that SSNNs can have larger storage capacity by selecting the appropriate parameters $h_{i}, i = 1, 2, 3, 4$ . Finally, the correctness of the results in this paper is verified through two numerical examples.

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具有墨西哥帽型激活函数的状态依赖开关神经网络的多稳定性

本文研究了具有墨西哥帽型激活函数（AFs）的状态依赖开关神经网络（SSNNs）的多稳定性问题。它确定了多个平衡点 (EP) 的共存性和稳定性。首先，根据墨西哥帽型激活函数的几何特征对状态空间进行划分，从而确定 EPs 的位置。其次，利用布劳威尔定点定理证明了 n 神经元 SSNN 在特定充分条件下 9h17h25h33h4 EPs 的共存性。接着，利用对角支配矩阵理论和格什高林圆定理，证明在某些条件下存在 5h14h23h32h4 近似稳定 EP，其中 h1、h2、h3 和 h4 为非负整数，满足 0≤h1+h2+h3+h4≤n 的条件。因此，我们可以得出，通过选择适当的参数 hi,i=1,2,3,4 可以使 SSNN 具有更大的存储容量。最后，本文通过两个数值实例验证了结果的正确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physica D: Nonlinear Phenomena 物理-物理：数学物理

CiteScore

7.30

自引率

7.50%

发文量

213

审稿时长

65 days

期刊介绍： Physica D (Nonlinear Phenomena) publishes research and review articles reporting on experimental and theoretical works, techniques and ideas that advance the understanding of nonlinear phenomena. Topics encompass wave motion in physical, chemical and biological systems; physical or biological phenomena governed by nonlinear field equations, including hydrodynamics and turbulence; pattern formation and cooperative phenomena; instability, bifurcations, chaos, and space-time disorder; integrable/Hamiltonian systems; asymptotic analysis and, more generally, mathematical methods for nonlinear systems.

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