Litcius/Paper detail

A Novel ZNN-Based Chaos Synchronization Controller and Its Application in Secure Voice Communications

Jiajie Luo, Jiguang Li, Lin Xiao, Jichun Li

2025IEEE Transactions on Systems Man and Cybernetics Systems7 citationsDOI

Abstract

Current variable-convergence-parameter zeroing neural networks (ZNNs), including the VCP-ZNN and the FCP-ZNN, are either inefficient or unintelligent. Although researchers have discussed the application of ZNN in chaos synchronization, these ZNN-based chaos synchronization controllers are rarely used in real-world applications. To the best of the authors’ knowledge, no researchers have applied the ZNN-based chaos synchronization controllers in secure voice communication. In this study, we established a novel chaos synchronization controller based on the proportional–integral-convergence-parameter ZNN (PICP-ZNN) model, which is both computationally efficient and intelligent. It was then used in secure voice communication. To demonstrate the superior features of the proposed PICP-ZNN model, we presented both theoretical analysis and numerical experiments to show its fixed-time convergence, robustness, and adaptiveness. In addition, a detailed comparison with other state-of-the-art variable-convergence-parameter ZNNs was presented to highlight our contribution further. The upper bound of the settling time is also estimated in both noisy and noise-free environments. Overall, this study offers a novel ZNN-based secure communication scheme. The PICP-ZNN models may serve as a novel source of inspiration for enhancing the variable-convergence-parameter ZNN even further.

Topics & Concepts

CHAOS (operating system)Synchronization (alternating current)Computer scienceController (irrigation)Secure communicationControl theory (sociology)TelecommunicationsArtificial intelligenceComputer networkComputer securityControl (management)BiologyEncryptionChannel (broadcasting)AgronomyNeural Networks and ApplicationsChaos control and synchronization