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Main Authors: Zou, Yi, Wang, Mengjiao, Zhang, Xinan, Iu, Herbert Ho-Ching
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.24294
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author Zou, Yi
Wang, Mengjiao
Zhang, Xinan
Iu, Herbert Ho-Ching
author_facet Zou, Yi
Wang, Mengjiao
Zhang, Xinan
Iu, Herbert Ho-Ching
contents Simulating brain functions using neural networks is an important area of research. Recently, discrete memristor-coupled neurons have attracted significant attention, as memristors effectively mimic synaptic behavior, which is essential for learning and memory. This highlights the biological relevance of such models. This study introduces a discrete memristive heterogeneous dual-neuron network (MHDNN). The stability of the MHDNN is analyzed with respect to initial conditions and a range of neuronal parameters. Numerical simulations demonstrate complex dynamical behaviors. Various neuronal firing patterns are investigated under different coupling strengths, and synchronization phenomena between neurons are explored. The MHDNN is implemented and validated on the STM32 hardware platform. An image encryption algorithm based on the MHDNN is proposed, along with two hardware platforms tailored for multi-scenario police image encryption. These solutions enable real-time and secure transmission of police data in complex environments, reducing hacking risks and enhancing system security.
format Preprint
id arxiv_https___arxiv_org_abs_2505_24294
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Novel Discrete Memristor-Coupled Heterogeneous Dual-Neuron Model and Its Application in Multi-Scenario Image Encryption
Zou, Yi
Wang, Mengjiao
Zhang, Xinan
Iu, Herbert Ho-Ching
Information Retrieval
Simulating brain functions using neural networks is an important area of research. Recently, discrete memristor-coupled neurons have attracted significant attention, as memristors effectively mimic synaptic behavior, which is essential for learning and memory. This highlights the biological relevance of such models. This study introduces a discrete memristive heterogeneous dual-neuron network (MHDNN). The stability of the MHDNN is analyzed with respect to initial conditions and a range of neuronal parameters. Numerical simulations demonstrate complex dynamical behaviors. Various neuronal firing patterns are investigated under different coupling strengths, and synchronization phenomena between neurons are explored. The MHDNN is implemented and validated on the STM32 hardware platform. An image encryption algorithm based on the MHDNN is proposed, along with two hardware platforms tailored for multi-scenario police image encryption. These solutions enable real-time and secure transmission of police data in complex environments, reducing hacking risks and enhancing system security.
title A Novel Discrete Memristor-Coupled Heterogeneous Dual-Neuron Model and Its Application in Multi-Scenario Image Encryption
topic Information Retrieval
url https://arxiv.org/abs/2505.24294