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Main Authors: Rosales-Infante, Flavio, Romero-Amezcua, M. L., Álvarez-Rios, Iván, Guzmán, F. S.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.03027
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author Rosales-Infante, Flavio
Romero-Amezcua, M. L.
Álvarez-Rios, Iván
Guzmán, F. S.
author_facet Rosales-Infante, Flavio
Romero-Amezcua, M. L.
Álvarez-Rios, Iván
Guzmán, F. S.
contents This paper revisits the send/retrieve message process using synchronization of the Lorenz system with a monochromatic message. We analyze how the fidelity of the retrieved signal depends on the message frequency and demonstrate message hacking through Fourier spectrum analysis. Various parameters affecting fidelity and noise in the hacked signal are also examined. Additionally, we transmit text messages recovered through synchronization and investigate their vulnerability to hacking. As a countermeasure, we propose a method to send both types of messages using the convolution as the encryption function to hide the message in the chaotic signal. This approach enhances retrieval fidelity and significantly increases resistance to hacking compared to synchronization-based methods.
format Preprint
id arxiv_https___arxiv_org_abs_2504_03027
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Plain Convolution Encryption as an Alternative to Overcoming the Limitations of Synchronization-Based Methods
Rosales-Infante, Flavio
Romero-Amezcua, M. L.
Álvarez-Rios, Iván
Guzmán, F. S.
Chaotic Dynamics
This paper revisits the send/retrieve message process using synchronization of the Lorenz system with a monochromatic message. We analyze how the fidelity of the retrieved signal depends on the message frequency and demonstrate message hacking through Fourier spectrum analysis. Various parameters affecting fidelity and noise in the hacked signal are also examined. Additionally, we transmit text messages recovered through synchronization and investigate their vulnerability to hacking. As a countermeasure, we propose a method to send both types of messages using the convolution as the encryption function to hide the message in the chaotic signal. This approach enhances retrieval fidelity and significantly increases resistance to hacking compared to synchronization-based methods.
title Plain Convolution Encryption as an Alternative to Overcoming the Limitations of Synchronization-Based Methods
topic Chaotic Dynamics
url https://arxiv.org/abs/2504.03027